Mercurial > octave-nkf
view libinterp/octave-value/ov-classdef.h @ 19632:76478d2da117
unconditionally disable the octave_allocator class
* configure.ac: Delete the --enable-octave-allocator option.
* oct-alloc.h: Delete octave_allocator class. Warn if file is
included. Unconditionally define macros to be empty.
* NEWS: Make note of these changes.
* oct-alloc.cc: Delete.
* liboctave/util/module.mk (UTIL_SRC): Remove it from the list.
* make_int.cc, Cell.h, oct-obj.cc, oct-obj.h, audiodevinfo.cc,
ov-base-int.h, ov-base-scalar.h, ov-bool-mat.cc, ov-bool-mat.h,
ov-bool-sparse.cc, ov-bool-sparse.h, ov-bool.cc, ov-bool.h,
ov-builtin.cc, ov-builtin.h, ov-cell.cc, ov-cell.h, ov-ch-mat.h,
ov-class.cc, ov-class.h, ov-classdef.cc, ov-classdef.h, ov-complex.cc,
ov-complex.h, ov-cs-list.cc, ov-cs-list.h, ov-cx-diag.cc,
ov-cx-diag.h, ov-cx-mat.cc, ov-cx-mat.h, ov-cx-sparse.cc,
ov-cx-sparse.h, ov-dld-fcn.cc, ov-dld-fcn.h, ov-fcn-handle.cc,
ov-fcn-handle.h, ov-fcn-inline.cc, ov-fcn-inline.h, ov-fcn.cc,
ov-fcn.h, ov-float.cc, ov-float.h, ov-flt-complex.cc,
ov-flt-complex.h, ov-flt-cx-diag.cc, ov-flt-cx-diag.h,
ov-flt-cx-mat.cc, ov-flt-cx-mat.h, ov-flt-re-diag.cc,
ov-flt-re-diag.h, ov-flt-re-mat.cc, ov-flt-re-mat.h, ov-int16.cc,
ov-int32.cc, ov-int64.cc, ov-int8.cc, ov-intx.h, ov-java.cc,
ov-java.h, ov-mex-fcn.cc, ov-mex-fcn.h, ov-perm.cc, ov-perm.h,
ov-range.cc, ov-range.h, ov-re-diag.cc, ov-re-diag.h, ov-re-mat.cc,
ov-re-mat.h, ov-re-sparse.cc, ov-re-sparse.h, ov-scalar.cc,
ov-scalar.h, ov-str-mat.cc, ov-str-mat.h, ov-struct.cc, ov-struct.h,
ov-uint16.cc, ov-uint32.cc, ov-uint64.cc, ov-uint8.cc, ov-usr-fcn.cc,
ov-usr-fcn.h, ov.cc, ov.h, pt-const.cc, pt-const.h, idx-vector.cc,
idx-vector.h: Delete uses of oct-alloc.h and OCTAVE_ALLOCATOR macros.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Tue, 20 Jan 2015 13:43:29 -0500 |
| parents | db92e7e28e1f |
| children | 4197fc428c7d |
line wrap: on
line source
/* Copyright (C) 2012-2013 Michael Goffioul This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #if !defined (octave_classdef_h) #define octave_classdef_h 1 #include <map> #include <set> #include <string> #include "oct-map.h" #include "oct-refcount.h" #include "ov-base.h" #include "symtab.h" class cdef_object; class cdef_class; class cdef_property; class cdef_method; class cdef_package; class tree_classdef; // This is mainly a boostrap class to declare the expected interface. // The actual base class is cdef_class_base, which is declared after // cdef_object, such that it can contain cdef_object objects. class cdef_object_rep { public: friend class cdef_object; public: cdef_object_rep (void) : refcount (1) { } virtual ~cdef_object_rep (void) { } virtual cdef_class get_class (void) const; virtual void set_class (const cdef_class&) { gripe_invalid_object ("set_class"); } virtual cdef_object_rep* clone (void) const { gripe_invalid_object ("clone"); return new cdef_object_rep (); } virtual cdef_object_rep* empty_clone (void) const { gripe_invalid_object ("empty_clone"); return new cdef_object_rep (); } virtual cdef_object_rep* copy (void) const { gripe_invalid_object ("copy"); return new cdef_object_rep (); } virtual cdef_object_rep* make_array (void) const { gripe_invalid_object ("make_array"); return new cdef_object_rep (); } virtual bool is_array (void) const { return false; } virtual bool is_value_object (void) const { return false; } virtual bool is_handle_object (void) const { return false; } virtual bool is_meta_object (void) const { return false; } virtual Array<cdef_object> array_value (void) const { gripe_invalid_object ("array_value"); return Array<cdef_object> (); } virtual void put (const std::string&, const octave_value&) { gripe_invalid_object ("put"); } virtual octave_value get (const std::string&) const { gripe_invalid_object ("get"); return octave_value (); } virtual octave_value_list subsref (const std::string&, const std::list<octave_value_list>&, int, size_t&, const cdef_class&, bool) { gripe_invalid_object ("subsref"); return octave_value_list (); } virtual octave_value subsasgn (const std::string&, const std::list<octave_value_list>&, const octave_value&) { gripe_invalid_object ("subsasgn"); return octave_value (); } virtual string_vector map_keys (void) const; virtual bool is_valid (void) const { return false; } std::string class_name (void) const; virtual void mark_for_construction (const cdef_class&) { gripe_invalid_object ("mark_for_construction"); } virtual bool is_constructed_for (const cdef_class&) const { gripe_invalid_object ("is_constructed_for"); return false; } virtual bool is_partially_constructed_for (const cdef_class&) const { gripe_invalid_object ("is_partially_constructed_for"); return false; } virtual void mark_as_constructed (void) { gripe_invalid_object ("mark_as_constructed"); } virtual void mark_as_constructed (const cdef_class&) { gripe_invalid_object ("mark_as_constructed"); } virtual bool is_constructed (void) const { gripe_invalid_object ("is_constructed"); return false; } virtual octave_idx_type static_count (void) const { return 0; } virtual void destroy (void) { delete this; } void release (void) { if (--refcount == static_count ()) destroy (); } virtual dim_vector dims (void) const { return dim_vector (); } protected: /* reference count */ octave_refcount<octave_idx_type> refcount; protected: /* Restricted copying */ cdef_object_rep (const cdef_object_rep&) : refcount (1) { } private: /* No assignment */ cdef_object_rep& operator = (const cdef_object_rep& ); void gripe_invalid_object (const char *who) const { error ("%s: invalid object", who); } }; class cdef_object { public: /* FIXME: use a null object */ cdef_object (void) : rep (new cdef_object_rep ()) { } cdef_object (const cdef_object& obj) : rep (obj.rep) { rep->refcount++; } cdef_object (cdef_object_rep *r) : rep (r) { } virtual ~cdef_object (void) { rep->release (); } cdef_object& operator = (const cdef_object& obj) { if (rep != obj.rep) { rep->release (); rep = obj.rep; rep->refcount++; } return *this; } cdef_class get_class (void) const; void set_class (const cdef_class& cls) { rep->set_class (cls); } std::string class_name (void) const { return rep->class_name (); } cdef_object clone (void) const { return cdef_object (rep->clone ()); } cdef_object empty_clone (void) const { return cdef_object (rep->empty_clone ()); } dim_vector dims (void) const { return rep->dims (); } cdef_object make_array (void) const { return cdef_object (rep->make_array ()); } cdef_object copy (void) const { return cdef_object (rep->copy ()); } bool is_array (void) const { return rep->is_array (); } bool is_value_object (void) const { return rep->is_value_object (); } bool is_handle_object (void) const { return rep->is_handle_object (); } bool is_meta_object (void) const { return rep->is_meta_object (); } Array<cdef_object> array_value (void) const { return rep->array_value (); } void put (const std::string& pname, const octave_value& val) { rep->put (pname, val); } octave_value get (const std::string& pname) const { return rep->get (pname); } octave_value_list subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout, size_t& skip, const cdef_class& context, bool auto_add = false) { return rep->subsref (type, idx, nargout, skip, context, auto_add); } octave_value subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs, int ignore_copies = 0) { make_unique (ignore_copies); return rep->subsasgn (type, idx, rhs); } string_vector map_keys (void) const { return rep->map_keys (); } octave_map map_value (void) const; const cdef_object_rep* get_rep (void) const { return rep; } bool ok (void) const { return rep->is_valid (); } void mark_for_construction (const cdef_class& cls) { rep->mark_for_construction (cls); } bool is_constructed (void) const { return rep->is_constructed (); } bool is_constructed_for (const cdef_class& cls) const { return rep->is_constructed_for (cls); } bool is_partially_constructed_for (const cdef_class& cls) const { return rep->is_partially_constructed_for (cls); } void mark_as_constructed (void) { rep->mark_as_constructed (); } void mark_as_constructed (const cdef_class& cls) { rep->mark_as_constructed (cls); } bool is (const cdef_object& obj) const { return rep == obj.rep; } protected: cdef_object_rep* get_rep (void) { return rep; } void make_unique (int ignore_copies) { if (rep->refcount > ignore_copies + 1) *this = clone (); } private: cdef_object_rep *rep; }; class cdef_object_base : public cdef_object_rep { public: cdef_object_base (void) : cdef_object_rep (), klass () { register_object (); } ~cdef_object_base (void) { unregister_object (); } cdef_class get_class (void) const; void set_class (const cdef_class& cls); cdef_object_rep* empty_clone (void) const { return new cdef_object_base (*this); } cdef_object_rep* make_array (void) const; protected: // Restricted copying! cdef_object_base (const cdef_object_base& obj) : cdef_object_rep (obj), klass (obj.klass) { register_object (); } private: void register_object (void); void unregister_object (void); private: // The class of the object cdef_object klass; private: // No assignment! cdef_object_base& operator = (const cdef_object_base&); }; class cdef_object_array : public cdef_object_base { public: cdef_object_array (void) : cdef_object_base () { } cdef_object_array (const Array<cdef_object>& a) : cdef_object_base (), array (a) { } cdef_object_rep* clone (void) const { return new cdef_object_array (*this); } dim_vector dims (void) const { return array.dims (); } bool is_valid (void) const { return true; } bool is_array (void) const { return true; } Array<cdef_object> array_value (void) const { return array; } octave_value_list subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout, size_t& skip, const cdef_class& context, bool auto_add); octave_value subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs); private: Array<cdef_object> array; private: void fill_empty_values (void) { fill_empty_values (array); } void fill_empty_values (Array<cdef_object>& arr); // Private copying! cdef_object_array (const cdef_object_array& obj) : cdef_object_base (obj), array (obj.array) { } // No assignment! cdef_object_array& operator = (const cdef_object_array&); }; class cdef_object_scalar : public cdef_object_base { public: cdef_object_scalar (void) : cdef_object_base () { } ~cdef_object_scalar (void) { } dim_vector dims (void) const { return dim_vector (1, 1); } void put (const std::string& pname, const octave_value& val) { map.assign (pname, val); } octave_value get (const std::string& pname) const { Cell val = map.contents (pname); if (val.numel () > 0) return val(0, 0); else { error ("get: unknown slot: %s", pname.c_str ()); return octave_value (); } } octave_value_list subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout, size_t& skip, const cdef_class& context, bool auto_add); octave_value subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs); void mark_for_construction (const cdef_class&); bool is_constructed_for (const cdef_class& cls) const; bool is_partially_constructed_for (const cdef_class& cls) const; void mark_as_constructed (void) { ctor_list.clear (); } void mark_as_constructed (const cdef_class& cls) { ctor_list.erase (cls); } bool is_constructed (void) const { return ctor_list.empty (); } protected: // Object property values octave_scalar_map map; // Internal/temporary structure used during object construction std::map< cdef_class, std::list<cdef_class> > ctor_list; protected: // Restricted object copying! cdef_object_scalar (const cdef_object_scalar& obj) : cdef_object_base (obj), map (obj.map), ctor_list (obj.ctor_list) { } private: // No assignment! cdef_object_scalar& operator = (const cdef_object_scalar&); }; class handle_cdef_object : public cdef_object_scalar { public: handle_cdef_object (void) : cdef_object_scalar () { } ~handle_cdef_object (void); cdef_object_rep* clone (void) const { handle_cdef_object *obj = const_cast<handle_cdef_object *> (this); obj->refcount++; return obj; } cdef_object_rep* copy (void) const { return new handle_cdef_object (*this); } bool is_valid (void) const { return true; } bool is_handle_object (void) const { return true; } protected: // Restricted copying! handle_cdef_object (const handle_cdef_object& obj) : cdef_object_scalar (obj) { } private: // No assignment handle_cdef_object& operator = (const handle_cdef_object&); }; class value_cdef_object : public cdef_object_scalar { public: value_cdef_object (void) : cdef_object_scalar () { } ~value_cdef_object (void); cdef_object_rep* clone (void) const { return new value_cdef_object (*this); } cdef_object_rep* copy (void) const { return clone (); } bool is_valid (void) const { return true; } bool is_value_object (void) const { return true; } private: // Private copying! value_cdef_object (const value_cdef_object& obj) : cdef_object_scalar (obj) { } // No assignment! value_cdef_object& operator = (const value_cdef_object&); }; class cdef_meta_object_rep : public handle_cdef_object { public: cdef_meta_object_rep (void) : handle_cdef_object () { } ~cdef_meta_object_rep (void) { } cdef_object_rep* copy (void) const { return new cdef_meta_object_rep (*this); } bool is_meta_object (void) const { return true; } virtual bool is_class (void) const { return false; } virtual bool is_property (void) const { return false; } virtual bool is_method (void) const { return false; } virtual bool is_package (void) const { return false; } virtual octave_value_list meta_subsref (const std::string& /* type */, const std::list<octave_value_list>& /* idx */, int /* nargout */) { ::error ("subsref: invalid meta object"); return octave_value_list (); } virtual void meta_release (void) { } virtual bool meta_is_postfix_index_handled (char /* type */) const { return false; } protected: // Restricted copying! cdef_meta_object_rep (const cdef_meta_object_rep& obj) : handle_cdef_object (obj) { } private: // No assignment! cdef_meta_object_rep& operator = (const cdef_meta_object_rep&); }; class cdef_meta_object : public cdef_object { public: cdef_meta_object (void) : cdef_object () { } cdef_meta_object (const cdef_meta_object& obj) : cdef_object (obj) { } cdef_meta_object (cdef_meta_object_rep *r) : cdef_object (r) { } // Object consistency is checked in sub-classes. cdef_meta_object (const cdef_object& obj) : cdef_object (obj) { } ~cdef_meta_object (void) { } bool is_class (void) const { return get_rep ()->is_class (); } bool is_property (void) const { return get_rep ()->is_property (); } bool is_method (void) const { return get_rep ()->is_method (); } bool is_package (void) const { return get_rep ()->is_package (); } octave_value_list meta_subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout) { return get_rep ()->meta_subsref (type, idx, nargout); } void meta_release (void) { get_rep ()->meta_release (); } bool meta_is_postfix_index_handled (char type) const { return get_rep ()->meta_is_postfix_index_handled (type); } private: cdef_meta_object_rep* get_rep (void) { return dynamic_cast<cdef_meta_object_rep *> (cdef_object::get_rep ()); } const cdef_meta_object_rep* get_rep (void) const { return dynamic_cast<const cdef_meta_object_rep *> (cdef_object::get_rep ()); } }; class cdef_class : public cdef_meta_object { private: class cdef_class_rep : public cdef_meta_object_rep { public: cdef_class_rep (void) : cdef_meta_object_rep (), member_count (0), handle_class (false), object_count (0), meta (false) { } cdef_class_rep (const std::list<cdef_class>& superclasses); cdef_object_rep* copy (void) const { return new cdef_class_rep (*this); } bool is_class (void) const { return true; } std::string get_name (void) const { return get ("Name").string_value (); } void set_name (const std::string& nm) { put ("Name", nm); } bool is_abstract (void) const { return get ("Abstract").bool_value (); } bool is_sealed (void) const { return get ("Sealed").bool_value (); } cdef_method find_method (const std::string& nm, bool local = false); void install_method (const cdef_method& meth); Cell get_methods (void); cdef_property find_property (const std::string& nm); void install_property (const cdef_property& prop); Cell get_properties (int mode); std::map<std::string, cdef_property> get_property_map (int mode); string_vector get_names (void); void set_directory (const std::string& dir) { directory = dir; } std::string get_directory (void) const { return directory; } void delete_object (cdef_object obj); octave_value_list meta_subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout); void meta_release (void); bool meta_is_postfix_index_handled (char type) const { return (type == '(' || type == '.'); } octave_value construct (const octave_value_list& args); cdef_object construct_object (const octave_value_list& args); void initialize_object (cdef_object& obj); void run_constructor (cdef_object& obj, const octave_value_list& args); void mark_as_handle_class (void) { handle_class = true; } bool is_handle_class (void) const { return handle_class; } void register_object (void) { object_count++; } void unregister_object (void) { object_count--; } octave_idx_type static_count (void) const { return member_count; } void destroy (void) { if (member_count) { refcount++; cdef_class lock (this); member_count = 0; method_map.clear (); property_map.clear (); } else delete this; } void mark_as_meta_class (void) { meta = true; } bool is_meta_class (void) const { return meta; } private: void load_all_methods (void); void find_names (std::set<std::string>& names, bool all); void find_properties (std::map<std::string,cdef_property>& props, int mode = 0); void find_methods (std::map<std::string, cdef_method>& meths, bool only_inherited); cdef_class wrap (void) { refcount++; return cdef_class (this); } private: // The @-directory were this class is loaded from. // (not used yet) std::string directory; // The methods defined by this class. std::map<std::string,cdef_method> method_map; // The properties defined by this class. std::map<std::string,cdef_property> property_map; // The number of members in this class (methods, properties...) octave_idx_type member_count; // TRUE if this class is a handle class. A class is a handle // class when the abstract "handle" class is one of its superclasses. bool handle_class; // The list of super-class constructors that are called implicitly by the // the classdef engine when creating an object. These constructors are not // called explicitly by the class constructor. std::list<cdef_class> implicit_ctor_list; // The number of objects of this class. octave_refcount<octave_idx_type> object_count; // TRUE if this class is a built-in meta class. bool meta; // Utility iterator typedef's. typedef std::map<std::string,cdef_method>::iterator method_iterator; typedef std::map<std::string,cdef_method>::const_iterator method_const_iterator; typedef std::map<std::string,cdef_property>::iterator property_iterator; typedef std::map<std::string,cdef_property>::const_iterator property_const_iterator; private: cdef_class_rep (const cdef_class_rep& c) : cdef_meta_object_rep (c), directory (c.directory), method_map (c.method_map), property_map (c.property_map), member_count (c.member_count), handle_class (c.handle_class), implicit_ctor_list (c.implicit_ctor_list), object_count (c.object_count), meta (c.meta) { } }; public: // Create and invalid class object cdef_class (void) : cdef_meta_object () { } cdef_class (const std::string& nm, const std::list<cdef_class>& superclasses) : cdef_meta_object (new cdef_class_rep (superclasses)) { get_rep ()->set_name (nm); } cdef_class (const cdef_class& cls) : cdef_meta_object (cls) { } cdef_class (const cdef_object& obj) : cdef_meta_object (obj) { // This should never happen... if (! is_class ()) error ("internal error: invalid assignment from %s to meta.class object", class_name ().c_str ()); } cdef_class& operator = (const cdef_class& cls) { cdef_object::operator= (cls); return *this; } cdef_method find_method (const std::string& nm, bool local = false); void install_method (const cdef_method& meth) { get_rep ()->install_method (meth); } Cell get_methods (void) { return get_rep ()->get_methods (); } cdef_property find_property (const std::string& nm); void install_property (const cdef_property& prop) { get_rep ()->install_property (prop); } Cell get_properties (int mode = property_normal) { return get_rep ()->get_properties (mode); } std::map<std::string, cdef_property> get_property_map (int mode = property_normal) { return get_rep ()->get_property_map (mode); } string_vector get_names (void) { return get_rep ()->get_names (); } bool is_abstract (void) const { return get_rep ()->is_abstract (); } bool is_sealed (void) const { return get_rep ()->is_sealed (); } void set_directory (const std::string& dir) { get_rep ()->set_directory (dir); } std::string get_directory (void) const { return get_rep ()->get_directory (); } std::string get_name (void) const { return get_rep ()->get_name (); } bool is_builtin (void) const { return get_directory ().empty (); } void delete_object (cdef_object obj) { get_rep ()->delete_object (obj); } static cdef_class make_meta_class (tree_classdef* t, bool is_at_folder = false); octave_function* get_method_function (const std::string& nm); octave_function* get_constructor_function (void) { return get_method_function (get_name ()); } octave_value construct (const octave_value_list& args) { return get_rep ()->construct (args); } cdef_object construct_object (const octave_value_list& args) { return get_rep ()->construct_object (args); } void initialize_object (cdef_object& obj) { get_rep ()->initialize_object (obj); } void run_constructor (cdef_object& obj, const octave_value_list& args) { get_rep ()->run_constructor (obj, args); } void mark_as_handle_class (void) { get_rep ()->mark_as_handle_class (); } bool is_handle_class (void) const { return get_rep ()->is_handle_class (); } void mark_as_meta_class (void) { get_rep ()->mark_as_meta_class (); } bool is_meta_class (void) const { return get_rep ()->is_meta_class (); } static const cdef_class& meta_class (void) { return _meta_class; } static const cdef_class& meta_property (void) { return _meta_property; } static const cdef_class& meta_method (void) { return _meta_method; } static const cdef_class& meta_package (void) { return _meta_package; } void register_object (void) { get_rep ()->register_object (); } void unregister_object (void) { get_rep ()->unregister_object (); } public: enum { property_normal, property_inherited, property_all }; private: cdef_class_rep* get_rep (void) { return dynamic_cast<cdef_class_rep *> (cdef_object::get_rep ()); } const cdef_class_rep* get_rep (void) const { return dynamic_cast<const cdef_class_rep *> (cdef_object::get_rep ()); } friend bool operator == (const cdef_class&, const cdef_class&); friend bool operator != (const cdef_class&, const cdef_class&); friend bool operator < (const cdef_class&, const cdef_class&); private: static cdef_class _meta_class; static cdef_class _meta_property; static cdef_class _meta_method; static cdef_class _meta_package; friend void install_classdef (void); }; inline bool operator == (const cdef_class& clsa, const cdef_class& clsb) // FIXME: is this really the right way to check class equality? { return (clsa.get_rep () == clsb.get_rep ()); } inline bool operator != (const cdef_class& clsa, const cdef_class& clsb) { return ! (clsa == clsb); } // This is only to be able to use cdef_class as map keys. inline bool operator < (const cdef_class& clsa, const cdef_class& clsb) { return clsa.get_rep () < clsb.get_rep (); } class cdef_property : public cdef_meta_object { friend class cdef_class; private: class cdef_property_rep : public cdef_meta_object_rep { public: cdef_property_rep (void) : cdef_meta_object_rep () { } cdef_object_rep* copy (void) const { return new cdef_property_rep (*this); } bool is_property (void) const { return true; } std::string get_name (void) const { return get("Name").string_value (); } void set_name (const std::string& nm) { put ("Name", nm); } bool is_constant (void) const { return get("Constant").bool_value (); } octave_value get_value (bool do_check_access = true, const std::string& who = std::string ()); octave_value get_value (const cdef_object& obj, bool do_check_access = true, const std::string& who = std::string ()); void set_value (cdef_object& obj, const octave_value& val, bool do_check_access = true, const std::string& who = std::string ()); bool check_get_access (void) const; bool check_set_access (void) const; private: cdef_property_rep (const cdef_property_rep& p) : cdef_meta_object_rep (p) { } bool is_recursive_set (const cdef_object& obj) const; cdef_property wrap (void) { refcount++; return cdef_property (this); } }; public: cdef_property (void) : cdef_meta_object () { } cdef_property (const std::string& nm) : cdef_meta_object (new cdef_property_rep ()) { get_rep ()->set_name (nm); } cdef_property (const cdef_property& prop) : cdef_meta_object (prop) { } cdef_property (const cdef_object& obj) : cdef_meta_object (obj) { // This should never happen... if (! is_property ()) error ("internal error: invalid assignment from %s to meta.property object", class_name ().c_str ()); } cdef_property& operator = (const cdef_property& prop) { cdef_object::operator= (prop); return *this; } octave_value get_value (const cdef_object& obj, bool do_check_access = true, const std::string& who = std::string ()) { return get_rep ()->get_value (obj, do_check_access, who); } octave_value get_value (bool do_check_access = true, const std::string& who = std::string ()) { return get_rep ()->get_value (do_check_access, who); } void set_value (cdef_object& obj, const octave_value& val, bool do_check_access = true, const std::string& who = std::string ()) { get_rep ()->set_value (obj, val, do_check_access, who); } bool check_get_access (void) const { return get_rep ()->check_get_access (); } bool check_set_access (void) const { return get_rep ()->check_set_access (); } std::string get_name (void) const { return get_rep ()->get_name (); } bool is_constant (void) const { return get_rep ()->is_constant (); } private: cdef_property_rep* get_rep (void) { return dynamic_cast<cdef_property_rep *> (cdef_object::get_rep ()); } const cdef_property_rep* get_rep (void) const { return dynamic_cast<const cdef_property_rep *> (cdef_object::get_rep ()); } }; class cdef_method : public cdef_meta_object { friend class cdef_class; private: class cdef_method_rep : public cdef_meta_object_rep { public: cdef_method_rep (void) : cdef_meta_object_rep (), function (), dispatch_type () { } cdef_object_rep* copy (void) const { return new cdef_method_rep(*this); } bool is_method (void) const { return true; } std::string get_name (void) const { return get("Name").string_value (); } void set_name (const std::string& nm) { put ("Name", nm); } bool is_static (void) const { return get("Static").bool_value (); } octave_value get_function (void) const { return function; } void set_function (const octave_value& fcn) { function = fcn; } bool check_access (void) const; bool is_external (void) const { return ! dispatch_type.empty (); } void mark_as_external (const std::string& dtype) { dispatch_type = dtype; } octave_value_list execute (const octave_value_list& args, int nargout, bool do_check_access = true, const std::string& who = std::string ()); octave_value_list execute (const cdef_object& obj, const octave_value_list& args, int nargout, bool do_check_access = true, const std::string& who = std::string ()); bool is_constructor (void) const; octave_value_list meta_subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout); bool meta_is_postfix_index_handled (char type) const { return (type == '(' || type == '.'); } private: cdef_method_rep (const cdef_method_rep& m) : cdef_meta_object_rep (m), function (m.function), dispatch_type (m.dispatch_type) { } void check_method (void); cdef_method wrap (void) { refcount++; return cdef_method (this); } private: octave_value function; // When non-empty, the method is externally defined and this member // is used to cache the dispatch type to look for the method. std::string dispatch_type; }; public: cdef_method (void) : cdef_meta_object () { } cdef_method (const std::string& nm) : cdef_meta_object (new cdef_method_rep ()) { get_rep ()->set_name (nm); } cdef_method (const cdef_method& meth) : cdef_meta_object (meth) { } cdef_method (const cdef_object& obj) : cdef_meta_object (obj) { // This should never happen... if (! is_method ()) error ("internal error: invalid assignment from %s to meta.method object", class_name ().c_str ()); } cdef_method& operator = (const cdef_method& meth) { cdef_object::operator= (meth); return *this; } /* normal invokation */ octave_value_list execute (const octave_value_list& args, int nargout, bool do_check_access = true, const std::string& who = std::string ()) { return get_rep ()->execute (args, nargout, do_check_access, who); } /* dot-invokation: object is pushed as 1st argument */ octave_value_list execute (const cdef_object& obj, const octave_value_list& args, int nargout, bool do_check_access = true, const std::string& who = std::string ()) { return get_rep ()->execute (obj, args, nargout, do_check_access, who); } bool check_access (void) const { return get_rep ()->check_access (); } std::string get_name (void) const { return get_rep ()->get_name (); } bool is_static (void) const { return get_rep ()->is_static (); } void set_function (const octave_value& fcn) { get_rep ()->set_function (fcn); } octave_value get_function (void) const { return get_rep ()->get_function (); } bool is_constructor (void) const { return get_rep ()->is_constructor (); } bool is_external (void) const { return get_rep ()->is_external (); } void mark_as_external (const std::string& dtype) { get_rep ()->mark_as_external (dtype); } private: cdef_method_rep* get_rep (void) { return dynamic_cast<cdef_method_rep *> (cdef_object::get_rep ()); } const cdef_method_rep* get_rep (void) const { return dynamic_cast<const cdef_method_rep *> (cdef_object::get_rep ()); } }; inline cdef_class cdef_object_rep::get_class (void) const { gripe_invalid_object ("get_class"); return cdef_class (); } inline std::string cdef_object_rep::class_name (void) const { return get_class ().get_name (); } inline cdef_class cdef_object::get_class (void) const { return rep->get_class (); } inline cdef_class cdef_object_base::get_class (void) const { return cdef_class (klass); } inline void cdef_object_base::set_class (const cdef_class& cls) { if ((klass.ok () && cls.ok () && cls != get_class ()) || (klass.ok () && ! cls.ok ()) || (! klass.ok () && cls.ok ())) { unregister_object (); klass = cls; register_object (); } } inline void cdef_object_base::register_object (void) { if (klass.ok ()) { cdef_class cls (get_class ()); if (! error_state && cls.ok ()) cls.register_object (); } } inline void cdef_object_base::unregister_object (void) { if (klass.ok ()) { cdef_class cls (get_class ()); if (! error_state && cls.ok ()) cls.unregister_object (); } } inline cdef_object_rep* cdef_object_base::make_array (void) const { cdef_object_rep* r = new cdef_object_array (); r->set_class (get_class ()); return r; } inline cdef_method cdef_class::find_method (const std::string& nm, bool local) { return get_rep ()->find_method (nm, local); } inline cdef_property cdef_class::find_property (const std::string& nm) { return get_rep ()->find_property (nm); } class cdef_package : public cdef_meta_object { friend class cdef_class; private: class cdef_package_rep : public cdef_meta_object_rep { public: cdef_package_rep (void) : cdef_meta_object_rep (), member_count (0) { } ~cdef_package_rep (void) { } cdef_object_rep* copy (void) const { return new cdef_package_rep (*this); } bool is_package (void) const { return true; } std::string get_name (void) const { return get("Name").string_value (); } void set_name (const std::string& nm) { put ("Name", nm); } void install_class (const cdef_class& cls, const std::string& nm); void install_function (const octave_value& fcn, const std::string& nm); void install_package (const cdef_package& pack, const std::string& nm); Cell get_classes (void) const; Cell get_functions (void) const; Cell get_packages (void) const; octave_idx_type static_count (void) const { return member_count; } void destroy (void) { if (member_count) { refcount++; cdef_package lock (this); member_count = 0; class_map.clear (); package_map.clear (); } else delete this; } octave_value_list meta_subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout); void meta_release (void); bool meta_is_postfix_index_handled (char type) const { return (type == '.'); } octave_value find (const std::string& nm); private: std::string full_name; std::map<std::string, cdef_class> class_map; std::map<std::string, octave_value> function_map; std::map<std::string, cdef_package> package_map; // The number of registered members in this package (classes, packages). // This only accounts for the members that back-reference to this package. octave_idx_type member_count; typedef std::map<std::string, cdef_class>::iterator class_iterator; typedef std::map<std::string, cdef_class>::const_iterator class_const_iterator; typedef std::map<std::string, octave_value>::iterator function_iterator; typedef std::map<std::string, octave_value>::const_iterator function_const_iterator; typedef std::map<std::string, cdef_package>::iterator package_iterator; typedef std::map<std::string, cdef_package>::const_iterator package_const_iterator; private: cdef_package_rep (const cdef_package_rep& p) : cdef_meta_object_rep (p), full_name (p.full_name), class_map (p.class_map), function_map (p.function_map), package_map (p.package_map), member_count (p.member_count) { } cdef_package wrap (void) { refcount++; return cdef_package (this); } }; public: cdef_package (void) : cdef_meta_object () { } cdef_package (const std::string& nm) : cdef_meta_object (new cdef_package_rep ()) { get_rep ()->set_name (nm); } cdef_package (const cdef_package& pack) : cdef_meta_object (pack) { } cdef_package (const cdef_object& obj) : cdef_meta_object (obj) { // This should never happen... if (! is_package ()) error ("internal error: invalid assignment from %s to meta.package object", class_name ().c_str ()); } cdef_package& operator = (const cdef_package& pack) { cdef_object::operator= (pack); return *this; } void install_class (const cdef_class& cls, const std::string& nm) { get_rep ()->install_class (cls, nm); } void install_function (const octave_value& fcn, const std::string& nm) { get_rep ()->install_function (fcn, nm); } void install_package (const cdef_package& pack, const std::string& nm) { get_rep ()->install_package (pack, nm); } Cell get_classes (void) const { return get_rep ()->get_classes (); } Cell get_functions (void) const { return get_rep ()->get_functions (); } Cell get_packages (void) const { return get_rep ()->get_packages (); } std::string get_name (void) const { return get_rep ()->get_name (); } octave_value find (const std::string& nm) { return get_rep ()->find (nm); } static const cdef_package& meta (void) { return _meta; } private: cdef_package_rep* get_rep (void) { return dynamic_cast<cdef_package_rep *> (cdef_object::get_rep ()); } const cdef_package_rep* get_rep (void) const { return dynamic_cast<const cdef_package_rep *> (cdef_object::get_rep ()); } private: static cdef_package _meta; friend void install_classdef (void); }; class octave_classdef : public octave_base_value { public: octave_classdef (void) : octave_base_value (), object () { } octave_classdef (const cdef_object& obj) : octave_base_value (), object (obj) { } octave_classdef (const octave_classdef& obj) : octave_base_value (obj), object (obj.object) { } octave_base_value* clone (void) const { return new octave_classdef (object.clone ()); } octave_base_value* empty_clone (void) const { return new octave_classdef (object.empty_clone ()); } cdef_object get_object (void) const { return object; } cdef_object& get_object_ref (void) { return object; } bool is_defined (void) const { return true; } bool is_map (void) const { return false; } bool is_object (void) const { return true; } bool is_classdef_object (void) const { return true; } void print (std::ostream& os, bool pr_as_read_syntax = false); void print_raw (std::ostream& os, bool pr_as_read_syntax = false) const; bool print_name_tag (std::ostream& os, const std::string& name) const; void print_with_name (std::ostream& os, const std::string& name, bool print_padding = true); bool is_instance_of (const std::string& cls_name) const; octave_value_list subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout); octave_value subsref (const std::string& type, const std::list<octave_value_list>& idx) { octave_value_list retval = subsref (type, idx, 1); return (retval.length () > 0 ? retval(0) : octave_value ()); } octave_value subsref (const std::string& type, const std::list<octave_value_list>& idx, bool auto_add); octave_value subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs); octave_value undef_subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs); string_vector map_keys (void) const { return object.map_keys (); } octave_map map_value (void) const { return object.map_value (); } dim_vector dims (void) const { return object.dims (); } private: cdef_object object; private: public: int type_id (void) const { return t_id; } std::string type_name (void) const { return t_name; } std::string class_name (void) const { return object.class_name (); } static int static_type_id (void) { return t_id; } static std::string static_type_name (void) { return t_name; } static std::string static_class_name (void) { return "<unknown>"; } static void register_type (void); private: static int t_id; static const std::string t_name; }; inline octave_value to_ov (const cdef_object& obj) { if (obj.ok ()) return octave_value (new octave_classdef (obj)); else return octave_value (Matrix ()); } inline octave_value to_ov (const octave_value& ov) { return ov; } inline cdef_object to_cdef (const octave_value& val) { if (val.type_name () == "object") return dynamic_cast<octave_classdef *> (val.internal_rep ())->get_object (); else { error ("cannot convert `%s' into `object'", val.type_name().c_str ()); return cdef_object (); } } inline cdef_object& to_cdef_ref (const octave_value& val) { static cdef_object empty; if (val.type_name () == "object") return dynamic_cast<octave_classdef *> (val.internal_rep ())->get_object_ref (); else { error ("cannot convert `%s' into `object'", val.type_name().c_str ()); return empty; } } inline cdef_object to_cdef (const cdef_object& obj) { return obj; } OCTINTERP_API void install_classdef (void); class cdef_manager { public: static cdef_class find_class (const std::string& name, bool error_if_not_found = true, bool load_if_not_found = true) { if (instance_ok ()) return instance->do_find_class (name, error_if_not_found, load_if_not_found); return cdef_class (); } static octave_function* find_method_symbol (const std::string& method_name, const std::string& class_name) { if (instance_ok ()) return instance->do_find_method_symbol (method_name, class_name); return 0; } static cdef_package find_package (const std::string& name, bool error_if_not_found = true, bool load_if_not_found = true) { if (instance_ok ()) return instance->do_find_package (name, error_if_not_found, load_if_not_found); return cdef_package (); } static octave_function* find_package_symbol (const std::string& pack_name) { if (instance_ok ()) return instance->do_find_package_symbol (pack_name); return 0; } static void register_class (const cdef_class& cls) { if (instance_ok ()) instance->do_register_class (cls); } static void unregister_class (const cdef_class& cls) { if (instance_ok ()) instance->do_unregister_class (cls); } static void register_package (const cdef_package& pkg) { if (instance_ok ()) instance->do_register_package (pkg); } static void unregister_package (const cdef_package& pkg) { if (instance_ok ()) instance->do_unregister_package (pkg); } private: cdef_manager (void) { } cdef_manager (const cdef_manager&); cdef_manager& operator = (const cdef_manager&); ~cdef_manager (void) { } static void create_instance (void); static bool instance_ok (void) { bool retval = true; if (! instance) create_instance (); if (! instance) { ::error ("unable to create cdef_manager!"); retval = false; } return retval; } static void cleanup_instance (void) { delete instance; instance = 0; } cdef_class do_find_class (const std::string& name, bool error_if_not_found, bool load_if_not_found); octave_function* do_find_method_symbol (const std::string& method_name, const std::string& class_name); cdef_package do_find_package (const std::string& name, bool error_if_not_found, bool load_if_not_found); octave_function* do_find_package_symbol (const std::string& pack_name); void do_register_class (const cdef_class& cls) { all_classes[cls.get_name ()] = cls; } void do_unregister_class (const cdef_class& cls) { all_classes.erase(cls.get_name ()); } void do_register_package (const cdef_package& pkg) { all_packages[pkg.get_name ()] = pkg; } void do_unregister_package (const cdef_package& pkg) { all_packages.erase(pkg.get_name ()); } private: // The single cdef_manager instance static cdef_manager *instance; // All registered/loaded classes std::map<std::string, cdef_class> all_classes; // All registered/loaded packages std::map<std::string, cdef_package> all_packages; }; #endif /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */