#ifndef __PYCVT__ #define __PYCVT__ // //------------------------------------------------------------------------ // String constants used static const char S_PY_IDCCVT_VALUE_ATTR[] = "__idc_cvt_value__"; static const char S_PY_IDCCVT_ID_ATTR[] = "__idc_cvt_id__"; static const char S_PY_IDC_OPAQUE_T[] = "py_idc_cvt_helper_t"; static const char S_PY_IDC_GLOBAL_VAR_FMT[] = "__py_cvt_gvar_%d"; // Constants used by get_idaapi_class_reference() #define PY_CLSID_CVT_INT64 0 #define PY_CLSID_APPCALL_SKEL_OBJ 1 #define PY_CLSID_CVT_BYREF 2 #define PY_CLSID_LAST 3 //--------------------------------------------------------------------------- // Use these macros to define script<->C fields #define DEFINE_SCFIELDX(name, type, is_opt) { #name, type, qoffsetof(CUR_STRUC, name), is_opt } #define DEFINE_SCFIELD(name, type) DEFINE_SCFIELDX(name, type, 0) #define DEFINE_SCFIELD_OPT(name, type) DEFINE_SCFIELDX(name, type, 1) //--------------------------------------------------------------------------- enum scfield_types_t { // Numeric fields FT_FIRST_NUM, FT_INT, FT_SIZET, FT_SSIZET, FT_NUM16, FT_NUM32, FT_LAST_NUM, // String field FT_STR, FT_CHAR, // Object fields FT_ARR, // Allocated array of strings FT_STRARR, // Allocated array of 16bit numbers FT_NUM16ARR, // Fixed size character array. The size must be passed in the definition FT_CHRARR_STATIC, }; //--------------------------------------------------------------------------- struct scfld_t { const char *field_name; uint32 field_type; size_t field_offs; bool is_optional; }; #define FT_VALUE_MASK 0xFFFF0000 // Possible return values of conversion functions #define FT_NOT_FOUND -1 #define FT_BAD_TYPE -2 #define FT_OK 1 //----------------------------------------------------------------------- class pycvt_t { struct attr_t { qstring str; uint64 u64; // User is responsible to release this attribute when done PyObject *py_obj; }; //----------------------------------------------------------------------- static int get_attr( PyObject *py_obj, const char *attrname, int ft, attr_t &val) { PyObject *py_attr; if ( (py_attr = PyW_TryGetAttrString(py_obj, attrname)) == NULL ) return FT_NOT_FOUND; int cvt = FT_OK; if ( ft == FT_STR || ft == FT_CHAR && PyString_Check(py_attr) ) val.str = PyString_AsString(py_attr); else if ( (ft > FT_FIRST_NUM && ft < FT_LAST_NUM) && PyW_GetNumber(py_attr, &val.u64) ) ; // nothing to be done // A string array? else if ( (ft == FT_STRARR || ft == FT_NUM16ARR || ft == FT_CHRARR_STATIC ) && (PyList_CheckExact(py_attr) || PyW_IsSequenceType(py_attr)) ) { // Return a reference to the attribute val.py_obj = py_attr; // Do not decrement the reference to this attribute py_attr = NULL; } else cvt = FT_BAD_TYPE; Py_XDECREF(py_attr); return cvt; } //----------------------------------------------------------------------- static int idaapi make_str_list_cb( PyObject *py_item, Py_ssize_t index, void *ud) { if ( !PyString_Check(py_item) ) return CIP_FAILED; char **a = (char **)ud; a[index] = qstrdup(PyString_AsString(py_item)); return CIP_OK; } //----------------------------------------------------------------------- // Converts an IDC list of strings to a C string list static Py_ssize_t str_list_to_str_arr( PyObject *py_list, char ***arr) { // Take the size Py_ssize_t size = pyvar_walk_list(py_list); // Allocate a buffer char **a = (char **)qalloc((size + 1) * sizeof(char *)); // Walk and populate size = pyvar_walk_list(py_list, make_str_list_cb, a); // Make the list NULL terminated a[size] = NULL; // Return the list to the user *arr = a; // Return the size of items processed return size; } //----------------------------------------------------------------------- typedef qvector uint64vec_t; static int idaapi make_int_list( PyObject *py_item, Py_ssize_t /*index*/, void *ud) { uint64 val; if ( !PyW_GetNumber(py_item, &val) ) return CIP_FAILED; uint64vec_t *vec = (uint64vec_t *)ud; vec->push_back(val); return CIP_OK; } public: //----------------------------------------------------------------------- // Frees a NULL terminated list of fields static void free_fields( const scfld_t *fields, void *store_area) { for ( int i=0; ; i++ ) { // End of list? const scfld_t &fd = fields[i]; if ( fd.field_name == NULL ) break; void *store = (void *)((char *)store_area + fd.field_offs); int ft = fd.field_type & ~FT_VALUE_MASK; switch ( ft ) { case FT_STR: // Simple string { char **s = (char **)store; if ( *s != NULL ) { qfree(*s); *s = NULL; } } break; case FT_STRARR: // Array of strings { char ***op = (char ***)store, **p = *op; while ( *p != NULL ) qfree((void *)*p++); qfree(*op); *op = NULL; } break; case FT_NUM16ARR: { uint16 **arr = (uint16 **)store; if ( *arr != NULL ) { qfree(*arr); *arr = NULL; } } break; } } } //----------------------------------------------------------------------- // Converts from a C structure to Python static int from_c( const scfld_t *fields, void *read_area, PyObject *py_obj) { PyObject *py_attr; int i; bool ok = false; for ( i=0; ; i++ ) { // End of list? const scfld_t &fd = fields[i]; if ( fd.field_name == NULL ) { ok = true; break; } // Point to structure member int ft = fd.field_type & ~FT_VALUE_MASK; void *read = (void *)((char *)read_area + fd.field_offs); // Create the python attribute properly if ( ft > FT_FIRST_NUM && ft < FT_LAST_NUM ) { if ( ft == FT_NUM16 ) py_attr = Py_BuildValue("H", *(uint16 *)read); else if ( ft == FT_NUM32 ) py_attr = Py_BuildValue("I", *(uint32 *)read); else if ( ft == FT_INT ) py_attr = Py_BuildValue("i", *(int *)read); else if ( ft == FT_SIZET ) py_attr = Py_BuildValue(PY_FMT64,*(size_t *)read); else if ( ft == FT_SSIZET ) py_attr = Py_BuildValue(PY_SFMT64,*(ssize_t *)read); } else if ( ft == FT_STR || ft == FT_CHAR ) { if ( ft == FT_STR ) py_attr = PyString_FromString(*(char **)read); else py_attr = Py_BuildValue("c", *(char *)read); } else if ( ft == FT_STRARR ) { char **arr = *(char ***)read; py_attr = PyList_New(0); while ( *arr != NULL ) PyList_Append(py_attr, PyString_FromString(*arr++)); } else continue; PyObject_SetAttrString(py_obj, fd.field_name, py_attr); Py_XDECREF(py_attr); } return ok ? -1 : i; } //----------------------------------------------------------------------- // Converts fields from IDC and field description into a C structure // If 'use_extlang' is specified, then the passed idc_obj is considered // to be an opaque object and thus can be queried only through extlang static int from_script( const scfld_t *fields, void *store_area, PyObject *py_obj) { int i; bool ok = false; attr_t attr; for ( i=0; ; i++ ) { // End of list? const scfld_t &fd = fields[i]; if ( fd.field_name == NULL ) { ok = true; break; } // Get field type int ft = fd.field_type & ~FT_VALUE_MASK; // Point to structure member void *store = (void *)((char *)store_area + fd.field_offs); // Retrieve attribute and type int cvt = get_attr(py_obj, fd.field_name, ft, attr); // Attribute not found? if ( cvt == FT_NOT_FOUND ) { // Skip optional fields if ( fd.is_optional ) continue; break; } if ( ft == FT_STR ) *(char **)store = qstrdup(attr.str.c_str()); else if ( ft == FT_NUM32 ) *(uint32 *)store = uint32(attr.u64); else if ( ft == FT_NUM16 ) *(uint16 *)store = attr.u64 & 0xffff; else if ( ft == FT_INT ) *(int *)store = int(attr.u64); else if ( ft == FT_SIZET ) *(size_t *)store = size_t(attr.u64); else if ( ft == FT_SSIZET ) *(ssize_t *)store = ssize_t(attr.u64); else if ( ft == FT_CHAR ) *(char *)store = *attr.str.c_str(); else if ( ft == FT_STRARR ) { str_list_to_str_arr(attr.py_obj, (char ***)store); Py_DECREF(attr.py_obj); } else if ( ft == FT_CHRARR_STATIC ) { size_t sz = (fd.field_type & FT_VALUE_MASK) >> 16; if ( sz == 0 ) break; uint64vec_t w; char *a = (char *) store; if ( pyvar_walk_list(attr.py_obj, make_int_list, &w) ) { sz = qmin(w.size(), sz); for ( size_t i=0; i < sz; i++ ) a[i] = w[i] & 0xFF; } } else if ( ft == FT_NUM16ARR ) { uint64vec_t w; if ( pyvar_walk_list(attr.py_obj, make_int_list, &w) > 0 ) { size_t max_sz = (fd.field_type & FT_VALUE_MASK) >> 16; bool zero_term; if ( max_sz == 0 ) { zero_term = true; max_sz = w.size(); } else { zero_term = false; max_sz = qmin(max_sz, w.size()); } // Allocate as much as we parsed elements // Add one more element if list was zero terminated uint16 *a = (uint16 *)qalloc(sizeof(uint16) * (max_sz + (zero_term ? 1 : 0))) ; for ( size_t i=0; i < max_sz; i++ ) a[i] = w[i] & 0xFF; if ( zero_term ) a[max_sz] = 0; *(uint16 **)store = a; } } else { // Unsupported field type! break; } } return ok ? -1 : i; } }; //------------------------------------------------------------------------- Py_ssize_t pyvar_walk_list( PyObject *py_list, int (idaapi *cb)(PyObject *py_item, Py_ssize_t index, void *ud), void *ud) { if ( !PyList_CheckExact(py_list) && !PyW_IsSequenceType(py_list) ) return CIP_FAILED; bool is_seq = !PyList_CheckExact(py_list); Py_ssize_t size = is_seq ? PySequence_Size(py_list) : PyList_Size(py_list); if ( cb == NULL ) return size; Py_ssize_t i; for ( i=0; i IDC variables // The referred Python variable will have its reference increased static bool create_py_idc_opaque_obj(PyObject *py_var, idc_value_t *idc_var) { // Create an IDC object of this special helper class if ( VarObject(idc_var, get_py_idc_cvt_opaque()) != eOk ) return false; // Store the CVT id idc_value_t idc_val; idc_val.set_long(PY_ICID_OPAQUE); VarSetAttr(idc_var, S_PY_IDCCVT_ID_ATTR, &idc_val); // Store the value as a PVOID referencing the given Python object idc_val.set_pvoid(py_var); VarSetAttr(idc_var, S_PY_IDCCVT_VALUE_ATTR, &idc_val); return true; } //------------------------------------------------------------------------ // IDC Opaque object destructor: when the IDC object dies we kill the // opaque Python object along with it static const char py_idc_cvt_helper_dtor_args[] = { VT_OBJ, 0 }; static error_t idaapi py_idc_opaque_dtor( idc_value_t *argv, idc_value_t * /*res*/) { // Get the value from the object idc_value_t idc_val; VarGetAttr(&argv[0], S_PY_IDCCVT_VALUE_ATTR, &idc_val); // Extract the Python object reference PyObject *py_obj = (PyObject *)idc_val.pvoid; // Decrease its reference (and eventually destroy it) Py_DECREF(py_obj); return eOk; } //------------------------------------------------------------------------- // Converts a Python variable into an IDC variable // This function returns on one CIP_XXXX int pyvar_to_idcvar( PyObject *py_var, idc_value_t *idc_var, int *gvar_sn) { PyObject *attr; // None / NULL if ( py_var == NULL || py_var == Py_None ) idc_var->set_long(0); // Numbers? else if ( PyW_GetNumberAsIDC(py_var, idc_var) ) return CIP_OK; // String else if ( PyString_Check(py_var) ) idc_var->_set_string(PyString_AsString(py_var), PyString_Size(py_var)); // Float else if ( PyBool_Check(py_var) ) idc_var->set_long(py_var == Py_True ? 1 : 0); // Boolean else if ( PyFloat_Check(py_var) ) { double dresult = PyFloat_AsDouble(py_var); ieee_realcvt((void *)&dresult, idc_var->e, 3); idc_var->vtype = VT_FLOAT; } // void* else if ( PyCObject_Check(py_var) ) idc_var->set_pvoid(PyCObject_AsVoidPtr(py_var)); // Is it a Python list? else if ( PyList_CheckExact(py_var) || PyW_IsSequenceType(py_var) ) { // Create the object VarObject(idc_var); // Determine list size and type bool is_seq = !PyList_CheckExact(py_var); Py_ssize_t size = is_seq ? PySequence_Size(py_var) : PyList_Size(py_var); bool ok = true; qstring attr_name; // Convert each item for ( Py_ssize_t i=0; i= CIP_OK; if ( ok ) { // Form the attribute name PyObject *py_int = PyInt_FromSsize_t(i); ok = PyW_ObjectToString(py_int, &attr_name); if ( !ok ) break; Py_DECREF(py_int); // Store the attribute VarSetAttr(idc_var, attr_name.c_str(), &v); } // Sequences return a new reference for GetItem() if ( is_seq ) Py_DECREF(py_var); if ( !ok ) break; } return ok ? CIP_OK : CIP_FAILED; } // Dictionary: we convert to an IDC object else if ( PyDict_Check(py_var) ) { // Create an empty IDC object VarObject(idc_var); // Get the dict.items() list PyObject *py_items = PyDict_Items(py_var); // Get the size of the list qstring key_name; bool ok = true; Py_ssize_t size = PySequence_Size(py_items); for ( Py_ssize_t i=0; i (key, value) PyObject *py_item = PyList_GetItem(py_items, i); // Extract key/value PyObject *key = PySequence_GetItem(py_item, 0); PyObject *val = PySequence_GetItem(py_item, 1); // Get key's string representation PyW_ObjectToString(key, &key_name); // Convert the attribute into an IDC value idc_value_t v; ok = pyvar_to_idcvar(val, &v, gvar_sn) >= CIP_OK; if ( ok ) { // Store the attribute VarSetAttr(idc_var, key_name.c_str(), &v); } Py_XDECREF(key); Py_XDECREF(val); if ( !ok ) break; } // Decrement attribute reference Py_DECREF(py_items); return ok ? CIP_OK : CIP_FAILED; } // Possible function? else if ( PyCallable_Check(py_var) ) { idc_var->clear(); idc_var->vtype = VT_FUNC; idc_var->funcidx = -1; // Does not apply return CIP_OK; } // Objects: // - pyidc_cvt objects: int64, byref, opaque // - other python objects else { // Get the type int cvt_id = get_pyidc_cvt_type(py_var); switch ( cvt_id ) { // // INT64 // case PY_ICID_INT64: // Get the value attribute attr = PyW_TryGetAttrString(py_var, S_PY_IDCCVT_VALUE_ATTR); if ( attr == NULL ) return false; idc_var->set_int64(PyLong_AsLongLong(attr)); Py_DECREF(attr); return CIP_OK; // // BYREF // case PY_ICID_BYREF: { // BYREF always require this parameter if ( gvar_sn == NULL ) return CIP_FAILED; // Get the value attribute attr = PyW_TryGetAttrString(py_var, S_PY_IDCCVT_VALUE_ATTR); if ( attr == NULL ) return CIP_FAILED; // Create a global variable char buf[MAXSTR]; qsnprintf(buf, sizeof(buf), S_PY_IDC_GLOBAL_VAR_FMT, *gvar_sn); idc_value_t *gvar = add_idc_gvar(buf); // Convert the python value into the IDC global variable bool ok = pyvar_to_idcvar(attr, gvar, gvar_sn) >= CIP_OK; if ( ok ) { (*gvar_sn)++; // Create a reference to this global variable VarRef(idc_var, gvar); } Py_DECREF(attr); return ok ? CIP_OK : CIP_FAILED; } // // OPAQUE // case PY_ICID_OPAQUE: { if ( !create_py_idc_opaque_obj(py_var, idc_var) ) return CIP_FAILED; return CIP_OK_NODECREF; } // // Other objects // default: // A normal object? PyObject *py_dir = PyObject_Dir(py_var); Py_ssize_t size = PyList_Size(py_dir); if ( py_dir == NULL || !PyList_Check(py_dir) || size == 0 ) { Py_XDECREF(py_dir); return CIP_FAILED; } // Create the IDC object VarObject(idc_var); for ( Py_ssize_t i=0; i 2 ) && (strncmp(field_name, "__", 2) == 0 ) && (strncmp(field_name+len-2, "__", 2) == 0) ) { continue; } idc_value_t v; // Get the non-private attribute from the object attr = PyObject_GetAttrString(py_var, field_name); if (attr == NULL // Convert the attribute into an IDC value || pyvar_to_idcvar(attr, &v, gvar_sn) < CIP_OK) { Py_XDECREF(attr); return CIP_FAILED; } // Store the attribute VarSetAttr(idc_var, field_name, &v); // Decrement attribute reference Py_DECREF(attr); } } } return CIP_OK; } //------------------------------------------------------------------------- // Converts an IDC variable to a Python variable // If py_var points to an existing object then the object will be updated // If py_var points to an existing immutable object then ZERO is returned // Returns one of CIP_xxxx. Check pywraps.hpp int idcvar_to_pyvar( const idc_value_t &idc_var, PyObject **py_var) { switch ( idc_var.vtype ) { case VT_PVOID: if ( *py_var == NULL ) *py_var = PyCObject_FromVoidPtr(idc_var.pvoid, NULL); else return CIP_IMMUTABLE; break; case VT_INT64: { // Recycle? if ( *py_var != NULL ) { // Recycling an int64 object? int t = get_pyidc_cvt_type(*py_var); if ( t != PY_ICID_INT64 ) return CIP_IMMUTABLE; // Cannot recycle immutable object // Update the attribute PyObject_SetAttrString(*py_var, S_PY_IDCCVT_VALUE_ATTR, PyLong_FromLongLong(idc_var.i64)); return CIP_OK; } PyObject *py_cls = get_idaapi_attr_by_id(PY_CLSID_CVT_INT64); if ( py_cls == NULL ) return CIP_FAILED; PYW_GIL_ENSURE; *py_var = PyObject_CallFunctionObjArgs(py_cls, PyLong_FromLongLong(idc_var.i64), NULL); PYW_GIL_RELEASE; Py_DECREF(py_cls); if ( PyW_GetError() || *py_var == NULL ) return CIP_FAILED; break; } #if !defined(NO_OBSOLETE_FUNCS) || defined(__EXPR_SRC) case VT_STR: *py_var = PyString_FromString(idc_var.str); break; #endif case VT_STR2: if ( *py_var == NULL ) { const qstring &s = idc_var.qstr(); *py_var = PyString_FromStringAndSize(s.begin(), s.length()); break; } else return CIP_IMMUTABLE; // Cannot recycle immutable object case VT_LONG: // Cannot recycle immutable objects if ( *py_var != NULL ) return CIP_IMMUTABLE; #ifdef __EA64__ *py_var = PyLong_FromLongLong(idc_var.num); #else *py_var = PyLong_FromLong(idc_var.num); #endif break; case VT_FLOAT: if ( *py_var == NULL ) { double x; if ( ph.realcvt(&x, (uint16 *)idc_var.e, (sizeof(x)/2-1)|010) != 0 ) INTERR(30160); *py_var = PyFloat_FromDouble(x); break; } else return CIP_IMMUTABLE; case VT_REF: { if ( *py_var == NULL ) { PyObject *py_cls = get_idaapi_attr_by_id(PY_CLSID_CVT_BYREF); if ( py_cls == NULL ) return CIP_FAILED; // Create a byref object with None value. We populate it later PYW_GIL_ENSURE; *py_var = PyObject_CallFunctionObjArgs(py_cls, Py_None, NULL); PYW_GIL_RELEASE; Py_DECREF(py_cls); if ( PyW_GetError() || *py_var == NULL ) return CIP_FAILED; } int t = *py_var == NULL ? -1 : get_pyidc_cvt_type(*py_var); if ( t != PY_ICID_BYREF ) return CIP_FAILED; // Dereference // (Since we are not using VREF_COPY flag, we can safely const_cast) idc_value_t *dref_v = VarDeref(const_cast(&idc_var), VREF_LOOP); if ( dref_v == NULL ) return CIP_FAILED; // Can we recycle the object? PyObject *new_py_val = PyW_TryGetAttrString(*py_var, S_PY_IDCCVT_VALUE_ATTR); if ( new_py_val != NULL ) { // Recycle t = idcvar_to_pyvar(*dref_v, &new_py_val); Py_XDECREF(new_py_val); // DECREF because of GetAttrStr // Success? Nothing more to be done if ( t == CIP_OK ) return CIP_OK; // Clear it so we don't recycle it new_py_val = NULL; } // Try to convert (not recycle) if ( idcvar_to_pyvar(*dref_v, &new_py_val) != CIP_OK ) return CIP_FAILED; // Update the attribute PyObject_SetAttrString(*py_var, S_PY_IDCCVT_VALUE_ATTR, new_py_val); Py_DECREF(new_py_val); break; } // Can convert back into a Python object or Python dictionary // (Depending if py_var will be recycled and it was a dictionary) case VT_OBJ: { // Check if this IDC object has __cvt_id__ and the __idc_cvt_value__ fields idc_value_t idc_val; if ( VarGetAttr(&idc_var, S_PY_IDCCVT_ID_ATTR, &idc_val) == eOk && VarGetAttr(&idc_var, S_PY_IDCCVT_VALUE_ATTR, &idc_val) == eOk ) { // Extract the object *py_var = (PyObject *) idc_val.pvoid; return CIP_OK_NODECREF; } PyObject *obj; bool is_dict = false; // Need to create a new object? if ( *py_var == NULL ) { // Get skeleton class reference PyObject *py_cls = get_idaapi_attr_by_id(PY_CLSID_APPCALL_SKEL_OBJ); if ( py_cls == NULL ) return CIP_FAILED; // Call constructor PYW_GIL_ENSURE; obj = PyObject_CallFunctionObjArgs(py_cls, NULL); PYW_GIL_RELEASE; Py_DECREF(py_cls); if ( PyW_GetError() || obj == NULL ) return CIP_FAILED; } else { // Recycle existing variable obj = *py_var; if ( PyDict_Check(obj) ) is_dict = true; } // Walk the IDC attributes and store into python for (const char *attr_name = VarFirstAttr(&idc_var); attr_name != NULL; attr_name = VarNextAttr(&idc_var, attr_name) ) { // Get the attribute idc_value_t v; VarGetAttr(&idc_var, attr_name, &v, true); // Convert attribute to a python value (recursively) PyObject *py_attr(NULL); int cvt = idcvar_to_pyvar(v, &py_attr); if ( cvt <= CIP_IMMUTABLE ) { // Delete the object (if we created it) if ( *py_var == NULL ) Py_DECREF(obj); return CIP_FAILED; } if ( is_dict ) PyDict_SetItemString(obj, attr_name, py_attr); else PyObject_SetAttrString(obj, attr_name, py_attr); if ( cvt == CIP_OK ) Py_XDECREF(py_attr); } *py_var = obj; break; } // Unhandled type default: *py_var = NULL; return CIP_FAILED; } return CIP_OK; } //------------------------------------------------------------------------- // Converts IDC arguments to Python argument list or just one tuple // If 'decref' is NULL then 'pargs' will contain one element which is the tuple bool pyw_convert_idc_args( const idc_value_t args[], int nargs, ppyobject_vec_t &pargs, boolvec_t *decref, char *errbuf, size_t errbufsize) { bool as_tupple = decref == NULL; PyObject *py_tuple(NULL); pargs.qclear(); if ( as_tupple ) { py_tuple = PyTuple_New(nargs); if ( py_tuple == NULL ) { if ( errbuf != 0 && errbufsize > 0 ) qstrncpy(errbuf, "Failed to create a new tuple to store arguments!", errbufsize); return false; } // Add the tuple pargs.push_back(py_tuple); } else { decref->qclear(); } for ( int i=0; i 0 ) qsnprintf(errbuf, errbufsize, "arg#%d has wrong type %d", i, args[i].vtype); return false; } if ( as_tupple ) { // Opaque object? if ( cvt == CIP_OK_NODECREF ) { // Increment reference for opaque objects. // (A tupple will steal references of its set items, // and for an opaque object we want it to still exist // even if the tuple is gone) Py_INCREF(py_obj); } // Save argument PyTuple_SetItem(py_tuple, i, py_obj); } else { pargs.push_back(py_obj); // Do not decrement reference of opaque objects decref->push_back(cvt == CIP_OK); } } return true; } //------------------------------------------------------------------------- // Frees arguments returned by pyw_convert_idc_args() void pyw_free_idc_args( ppyobject_vec_t &pargs, boolvec_t *decref) { if ( decref == NULL ) { if ( !pargs.empty() ) Py_XDECREF(pargs[0]); } else { // free argument objects for ( int i=(int)pargs.size()-1; i>=0; i-- ) { if ( decref->at(i) ) Py_DECREF(pargs[i]); } decref->clear(); } pargs.clear(); } // #endif