QValidator::State sipQRegExpValidator::validate(QString& a0,int& a1) const { sip_gilstate_t sipGILState; PyObject *meth; meth = sipIsPyMethod(&sipGILState,const_cast<char *>(&sipPyMethods[0]),sipPySelf,NULL,sipName_validate); if (!meth) return QRegExpValidator::validate(a0,a1); if (sipIsAPIEnabled(sipName_QString, 2, 0)) { extern QValidator::State sipVH_QtGui_30(sip_gilstate_t,PyObject *,QString&,int&); return sipVH_QtGui_30(sipGILState,meth,a0,a1); } if (sipIsAPIEnabled(sipName_QString, 0, 2)) { extern QValidator::State sipVH_QtGui_29(sip_gilstate_t,PyObject *,QString&,int&); return sipVH_QtGui_29(sipGILState,meth,a0,a1); } return QRegExpValidator::validate(a0,a1); }
void sipQRegExpValidator::fixup(QString& a0) const { sip_gilstate_t sipGILState; PyObject *meth; meth = sipIsPyMethod(&sipGILState,const_cast<char *>(&sipPyMethods[1]),sipPySelf,NULL,sipName_fixup); if (!meth) { QValidator::fixup(a0); return; } if (sipIsAPIEnabled(sipName_QString, 2, 0)) { extern void sipVH_QtGui_34(sip_gilstate_t,PyObject *,QString&); sipVH_QtGui_34(sipGILState,meth,a0); return; } if (sipIsAPIEnabled(sipName_QString, 0, 2)) { extern void sipVH_QtGui_33(sip_gilstate_t,PyObject *,QString&); sipVH_QtGui_33(sipGILState,meth,a0); return; } QValidator::fixup(a0); }
static PyObject *meth_QRegExpValidator_validate(PyObject *sipSelf, PyObject *sipArgs, PyObject *sipKwds) { PyObject *sipParseErr = NULL; bool sipSelfWasArg = (!sipSelf || sipIsDerived((sipSimpleWrapper *)sipSelf)); if (sipIsAPIEnabled(sipName_QString, 2, 0)) { QString * a0; int a0State = 0; int a1; QRegExpValidator *sipCpp; static const char *sipKwdList[] = { sipName_input, sipName_pos, }; if (sipParseKwdArgs(&sipParseErr, sipArgs, sipKwds, sipKwdList, NULL, "BJ1i", &sipSelf, sipType_QRegExpValidator, &sipCpp, sipType_QString,&a0, &a0State, &a1)) { QValidator::State sipRes; PyObject *sipResult; Py_BEGIN_ALLOW_THREADS sipRes = (sipSelfWasArg ? sipCpp->QRegExpValidator::validate(*a0,a1) : sipCpp->validate(*a0,a1)); Py_END_ALLOW_THREADS sipResult = sipBuildResult(0,"(FDi)",sipRes,sipType_QValidator_State,a0,sipType_QString,NULL,a1); sipReleaseType(a0,sipType_QString,a0State); return sipResult; } } if (sipIsAPIEnabled(sipName_QString, 0, 2)) { QString * a0; int a1; QRegExpValidator *sipCpp; if (sipParseKwdArgs(&sipParseErr, sipArgs, sipKwds, NULL, NULL, "BJ9i", &sipSelf, sipType_QRegExpValidator, &sipCpp, sipType_QString,&a0, &a1)) { QValidator::State sipRes; Py_BEGIN_ALLOW_THREADS sipRes = (sipSelfWasArg ? sipCpp->QRegExpValidator::validate(*a0,a1) : sipCpp->validate(*a0,a1)); Py_END_ALLOW_THREADS return sipBuildResult(0,"(Fi)",sipRes,sipType_QValidator_State,a1); }
// Convert a QVariant to a Python object based on the type of the object. PyObject *Chimera::toAnyPyObject(const QVariant &var) { if (!var.isValid()) { Py_INCREF(Py_None); return Py_None; } // Handle null variants for the v2 API. if (var.isNull() && sipIsAPIEnabled("QVariant", 2, 0)) return qpycore_qpynullvariant_FromQVariant(var); const char *type_name = var.typeName(); const sipTypeDef *td = sipFindType(type_name); Chimera *ct = new Chimera; ct->_type = td; ct->_name = type_name; ct->_metatype = var.userType(); if (td && sipTypeIsClass(td)) ct->set_flag(); PyObject *py = ct->toPyObject(var); delete ct; return py; }