#ifdef SWIG_OCTAVE_EXTERNAL_OCTHEADERS %insert(runtime) %{ #include "octheaders.hpp" %} #else %insert(runtime) "octheaders.hpp"; #endif %insert(runtime) "swigrun.swg"; %insert(runtime) "swigerrors.swg"; %insert(runtime) "octrun.swg"; %insert(initbeforefunc) "swiginit.swg" %insert(initbeforefunc) %{ static bool SWIG_init_user(octave_swig_type* module_ns); SWIGINTERN bool SWIG_Octave_LoadModule(std::string name) { bool retn = false; { #if SWIG_OCTAVE_PREREQ(6,0,0) #elif SWIG_OCTAVE_PREREQ(4,2,0) octave::unwind_protect frame; frame.protect_var(discard_error_messages); discard_error_messages = true; frame.protect_var(discard_warning_messages); discard_warning_messages = true; #elif SWIG_OCTAVE_PREREQ(3,3,50) unwind_protect frame; frame.protect_var(error_state); error_state = 0; frame.protect_var(warning_state); warning_state = 0; frame.protect_var(discard_error_messages); discard_error_messages = true; frame.protect_var(discard_warning_messages); discard_warning_messages = true; #else unwind_protect::begin_frame("SWIG_Octave_LoadModule"); unwind_protect_int(error_state); error_state = 0; unwind_protect_int(warning_state); warning_state = 0; unwind_protect_bool(discard_error_messages); discard_error_messages = true; unwind_protect_bool(discard_warning_messages); discard_warning_messages = true; #endif #if SWIG_OCTAVE_PREREQ(4,2,0) try { #if SWIG_OCTAVE_PREREQ(4,4,0) octave::feval(name, octave_value_list(), 0); #else feval(name, octave_value_list(), 0); #endif retn = true; } catch (octave::execution_exception&) { } #else feval(name, octave_value_list(), 0); retn = (error_state == 0); #endif #if !SWIG_OCTAVE_PREREQ(3,3,50) unwind_protect::run_frame("SWIG_Octave_LoadModule"); #endif } if (!retn) { error(SWIG_name_d ": could not load module `%s'", name.c_str()); } return retn; } SWIGINTERN bool SWIG_Octave_InstallFunction(octave_function *octloadfcn, std::string name) { bool retn = false; { #if SWIG_OCTAVE_PREREQ(6,0,0) #elif SWIG_OCTAVE_PREREQ(4,2,0) octave::unwind_protect frame; frame.protect_var(discard_error_messages); discard_error_messages = true; frame.protect_var(discard_warning_messages); discard_warning_messages = true; #elif SWIG_OCTAVE_PREREQ(3,3,50) unwind_protect frame; frame.protect_var(error_state); error_state = 0; frame.protect_var(warning_state); warning_state = 0; frame.protect_var(discard_error_messages); discard_error_messages = true; frame.protect_var(discard_warning_messages); discard_warning_messages = true; #else unwind_protect::begin_frame("SWIG_Octave_InstallFunction"); unwind_protect_int(error_state); error_state = 0; unwind_protect_int(warning_state); warning_state = 0; unwind_protect_bool(discard_error_messages); discard_error_messages = true; unwind_protect_bool(discard_warning_messages); discard_warning_messages = true; #endif octave_value_list args; args.append(name); args.append(octloadfcn->fcn_file_name()); #if SWIG_OCTAVE_PREREQ(4,2,0) try { #if SWIG_OCTAVE_PREREQ(4,4,0) octave::feval("autoload", args, 0); #else feval("autoload", args, 0); #endif retn = true; } catch (octave::execution_exception&) { } #else feval("autoload", args, 0); retn = (error_state == 0); #endif #if !SWIG_OCTAVE_PREREQ(3,3,50) unwind_protect::run_frame("SWIG_Octave_InstallFunction"); #endif } if (!retn) { error(SWIG_name_d ": could not load function `%s'", name.c_str()); } return retn; } static const char *const subclass_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} subclass()\n\ @deftypefnx{Loadable Function} {} subclass(@var{swigclass}, @var{name}, @var{fcn}, @dots{})\n\ Subclass a C++ class from within Octave, and provide implementations of its virtual methods.\n\ \n\ See the SWIG manual for usage examples.\n\ @end deftypefn"; DEFUN_DLD( subclass, args, nargout, subclass_usage ) { octave_swig_type *top = new octave_swig_type; for (int j = 0; j < args.length(); ++j) { if (args(j).type_id() == octave_swig_ref::static_type_id()) { octave_swig_ref *osr = static_cast < octave_swig_ref *>(args(j).internal_rep()); octave_swig_type *ost = osr->get_ptr(); if (!ost->is_owned()) { error("subclass: cannot subclass object not constructed on octave side"); return octave_value_list(); } top->merge(*ost); } else if (args(j).is_function_handle()) { top->assign(args(j).fcn_handle_value()->fcn_name(), args(j)); } else if (args(j).is_string()) { if (j + 1 >= args.length()) { error("subclass: member assignments must be of string,value form"); return octave_value_list(); } top->assign(args(j).string_value(), args(j + 1)); ++j; } else { error("subclass: invalid arguments to subclass()"); return octave_value_list(); } } return octave_value(Swig::swig_value_ref(top)); } static const char *const swig_type_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} swig_type(@var{swigref})\n\ Return the underlying C/C++ type name of a SWIG-wrapped object.\n\ @end deftypefn"; DEFUN_DLD( swig_type, args, nargout, swig_type_usage ) { if (args.length() != 1) { error("swig_type: must be called with only a single object"); return octave_value_list(); } octave_swig_type *ost = Swig::swig_value_deref(args(0)); if (!ost) { error("swig_type: object is not a swig_ref"); return octave_value_list(); } return octave_value(ost->swig_type_name()); } static const char *const swig_typequery_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} swig_typequery(@var{string})\n\ Return @var{string} if it is a recognised SWIG-wrapped C/C++ type name;\n\ otherwise return `'.\n\ @end deftypefn"; DEFUN_DLD( swig_typequery, args, nargout, swig_typequery_usage ) { if (args.length() != 1 || !args(0).is_string()) { error("swig_typequery: must be called with single string argument"); return octave_value_list(); } swig_module_info *module = SWIG_GetModule(0); swig_type_info *type = SWIG_TypeQueryModule(module, module, args(0).string_value().c_str()); if (!type) return octave_value(""); return octave_value(type->name); } static const char *const swig_this_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} swig_this(@var{swigref})\n\ Return the underlying C/C++ pointer of a SWIG-wrapped object.\n\ @end deftypefn"; DEFUN_DLD( swig_this, args, nargout, swig_this_usage ) { if (args.length() != 1) { error("swig_this: must be called with only a single object"); return octave_value_list(); } if (args(0).is_matrix_type() && args(0).rows() == 0 && args(0).columns() == 0) return octave_value(octave_uint64(0)); octave_swig_type *ost = Swig::swig_value_deref(args(0)); if (!ost) { error("swig_this: object is not a swig_ref"); return octave_value_list(); } return octave_value(octave_uint64((unsigned long long) ost->swig_this())); } static const char *const swig_octave_prereq_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} swig_octave_prereq(@var{major}, @var{minor}, @var{patch})\n\ Return true if the version of Octave is at least @var{major}.@var{minor}.@var{patch}.\n\ @end deftypefn"; DEFUN_DLD( swig_octave_prereq, args, nargout, swig_octave_prereq_usage ) { if (args.length() != 3) { error("swig_octave_prereq: must be called with 3 arguments"); return octave_value_list(); } const int major = args(0).int_value(); const int minor = args(1).int_value(); const int patch = args(2).int_value(); const bool prereq = SWIG_OCTAVE_PREREQ(major, minor, patch); return octave_value(prereq); } static const char *const swig_exit_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Function} {} swig_exit([@var{exit_status}])\n\ Exit Octave without performing any memory cleanup.\n\ @end deftypefn"; DEFUN_DLD( swig_exit, args, nargout, swig_exit_usage ) { if (args.length() > 1) { error("swig_exit: must be called with at most one arguments"); return octave_value_list(); } int exit_status = 0; if (args.length() == 1) { exit_status = args(0).int_value(); } ::_Exit(exit_status); return octave_value(); } static const char *const SWIG_name_usage = "-*- texinfo -*- \n\ @deftypefn {Loadable Module} {} " SWIG_name_d "\n\ Loads the SWIG-generated module `" SWIG_name_d "'.\n\ @end deftypefn"; DEFUN_DLD( SWIG_name, args, nargout, SWIG_name_usage ) { static octave_swig_type* module_ns = 0; // workaround to prevent octave seg-faulting on exit: set Octave exit function // octave_exit to _Exit, which exits immediately without trying to cleanup memory. // definitely affected version 3.2.*, not sure about 3.3.*, seems to be fixed in // version 3.4.*, reappeared in 4.2.*, hack not possible in 4.4.* or later due to // removal of octave_exit, so turn on for all versions between 3.2.*. and 4.4.*. // can be turned off with macro definition. #ifndef SWIG_OCTAVE_NO_SEGFAULT_HACK #if !SWIG_OCTAVE_PREREQ(4,4,0) #if SWIG_OCTAVE_PREREQ(3,2,0) octave_exit = ::_Exit; #endif #endif #endif // check for no input and output args if (args.length() != 0 || nargout != 0) { print_usage(); return octave_value_list(); } // create module on first function call if (!module_ns) { // workaround bug in octave where installing global variable of custom type and then // exiting without explicitly clearing the variable causes octave to segfault. #if SWIG_OCTAVE_PREREQ(3,2,0) octave_value_list eval_args; eval_args.append("base"); eval_args.append("function __swig_atexit__; " " if mislocked() " " clear -all; " " else " " mlock(); " " endif; " "endfunction; " "__swig_atexit__; " "atexit(\"__swig_atexit__\", false); " "atexit(\"__swig_atexit__\")"); #if SWIG_OCTAVE_PREREQ(4,4,0) octave::feval("evalin", eval_args, 0); #else feval("evalin", eval_args, 0); #endif #endif #if SWIG_OCTAVE_PREREQ(4,4,0) { octave::type_info& typeinfo = octave::interpreter::the_interpreter()->get_type_info(); string_vector types = typeinfo.installed_type_names(); bool register_octave_swig_ref = true; bool register_octave_swig_packed = true; for (int i = 0; i < types.numel(); ++i) { if (types(i) == octave_swig_ref::static_type_name()) { register_octave_swig_ref = false; octave_swig_ref::set_type_id(i); } if (types(i) == octave_swig_packed::static_type_name()) { register_octave_swig_packed = false; octave_swig_packed::set_type_id(i); } } if (register_octave_swig_ref) { octave_swig_ref::register_type(); } if (register_octave_swig_packed) { octave_swig_packed::register_type(); } } #else octave_swig_ref::register_type(); octave_swig_packed::register_type(); #endif SWIG_InitializeModule(0); SWIG_PropagateClientData(); #if SWIG_OCTAVE_PREREQ(8,0,0) octave::tree_evaluator& tree_eval = octave::interpreter::the_interpreter()->get_evaluator(); octave_function *me = tree_eval.current_function(); #elif SWIG_OCTAVE_PREREQ(6,0,0) octave::tree_evaluator& tree_eval = octave::interpreter::the_interpreter()->get_evaluator(); octave::call_stack& stack = tree_eval.get_call_stack(); octave_function *me = stack.current_function(); #elif SWIG_OCTAVE_PREREQ(4,4,0) octave::call_stack& stack = octave::interpreter::the_interpreter()->get_call_stack(); octave_function *me = stack.current(); #else octave_function *me = octave_call_stack::current(); #endif if (!SWIG_Octave_InstallFunction(me, "subclass")) { return octave_value_list(); } if (!SWIG_Octave_InstallFunction(me, "swig_type")) { return octave_value_list(); } if (!SWIG_Octave_InstallFunction(me, "swig_typequery")) { return octave_value_list(); } if (!SWIG_Octave_InstallFunction(me, "swig_this")) { return octave_value_list(); } if (!SWIG_Octave_InstallFunction(me, "swig_octave_prereq")) { return octave_value_list(); } if (!SWIG_Octave_InstallFunction(me, "swig_exit")) { return octave_value_list(); } octave_swig_type* cvar_ns=0; if (std::string(SWIG_global_name) != ".") { cvar_ns=new octave_swig_type; for (int j=0;swig_globals[j].name;++j) if (swig_globals[j].get_method) cvar_ns->assign(swig_globals[j].name,&swig_globals[j]); } module_ns=new octave_swig_type(0, 0, 0, true); if (std::string(SWIG_global_name) != ".") { module_ns->assign(SWIG_global_name,Swig::swig_value_ref(cvar_ns)); } else { for (int j=0;swig_globals[j].name;++j) if (swig_globals[j].get_method) module_ns->assign(swig_globals[j].name,&swig_globals[j]); } for (int j=0;swig_globals[j].name;++j) if (swig_globals[j].method) module_ns->assign(swig_globals[j].name,&swig_globals[j]); // * need better solution here; swig_type -> octave_class mapping is // * really n-to-1, in some cases such as template partial spec, etc. // * see failing tests. for (int j=0;swig_types[j];++j) if (swig_types[j]->clientdata) { swig_octave_class* c=(swig_octave_class*)swig_types[j]->clientdata; module_ns->assign(c->name, Swig::swig_value_ref (new octave_swig_type(0,swig_types[j]))); } if (!SWIG_init_user(module_ns)) { delete module_ns; module_ns=0; return octave_value_list(); } SWIG_InstallOps(octave_swig_ref::static_type_id()); octave_swig_type::swig_member_const_iterator mb; for (mb = module_ns->swig_members_begin(); mb != module_ns->swig_members_end(); ++mb) { if (mb->second.first && mb->second.first->method) { if (!SWIG_Octave_InstallFunction(me, mb->first)) { return octave_value_list(); } } } #if SWIG_OCTAVE_PREREQ(4,4,0) octave::interpreter::the_interpreter()->mlock(); #elif SWIG_OCTAVE_PREREQ(3,2,0) mlock(); #else mlock(me->name()); #endif } octave_swig_type::swig_member_const_iterator mb; for (mb = module_ns->swig_members_begin(); mb != module_ns->swig_members_end(); ++mb) { if (mb->second.second.is_defined()) { SWIG_Octave_SetGlobalValue(mb->first, mb->second.second); SWIG_Octave_LinkGlobalValue(mb->first); } } SWIG_Octave_SetGlobalValue(SWIG_name_d, module_ns->as_value()); SWIG_Octave_LinkGlobalValue(SWIG_name_d); return octave_value_list(); } %}