gdb/python/py-registers.c - third_party/binutils-gdb - Git at Google

 /* Python interface to register, and register group information.

    Copyright (C) 2020-2024 Free Software Foundation, Inc.

    This file is part of GDB.

    This program 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.

    This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.  */

 #include "gdbarch.h"
 #include "arch-utils.h"
 #include "reggroups.h"
 #include "python-internal.h"
 #include "user-regs.h"
 #include <unordered_map>

 /* Per-gdbarch data type.  */
 typedef std::vector<gdbpy_ref<>> gdbpy_register_type;

 /* Token to access per-gdbarch data related to register descriptors.  */
 static const registry<gdbarch>::key<gdbpy_register_type>
      gdbpy_register_object_data;

 /* Structure for iterator over register descriptors.  */
 struct register_descriptor_iterator_object {
   PyObject_HEAD

   /* The register group that the user is iterating over.  This will never
      be NULL.  */
   const struct reggroup *reggroup;

   /* The next register number to lookup.  Starts at 0 and counts up.  */
   int regnum;

   /* Pointer back to the architecture we're finding registers for.  */
   struct gdbarch *gdbarch;
 };

 extern PyTypeObject register_descriptor_iterator_object_type
     CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("register_descriptor_iterator_object");

 /* A register descriptor.  */
 struct register_descriptor_object {
   PyObject_HEAD

   /* The register this is a descriptor for.  */
   int regnum;

   /* The architecture this is a register for.  */
   struct gdbarch *gdbarch;
 };

 extern PyTypeObject register_descriptor_object_type
     CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("register_descriptor_object");

 /* Structure for iterator over register groups.  */
 struct reggroup_iterator_object {
   PyObject_HEAD

   /* The index into GROUPS for the next group to return.  */
   std::vector<const reggroup *>::size_type index;

   /* Pointer back to the architecture we're finding registers for.  */
   struct gdbarch *gdbarch;
 };

 extern PyTypeObject reggroup_iterator_object_type
     CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("reggroup_iterator_object");

 /* A register group object.  */
 struct reggroup_object {
   PyObject_HEAD

   /* The register group being described.  */
   const struct reggroup *reggroup;
 };

 extern PyTypeObject reggroup_object_type
     CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("reggroup_object");

 /* Return a gdb.RegisterGroup object wrapping REGGROUP.  The register
    group objects are cached, and the same Python object will always be
    returned for the same REGGROUP pointer.  */

 static gdbpy_ref<>
 gdbpy_get_reggroup (const reggroup *reggroup)
 {
   /* Map from GDB's internal reggroup objects to the Python representation.
      GDB's reggroups are global, and are never deleted, so using a map like
      this is safe.  */
   static std::unordered_map<const struct reggroup *,gdbpy_ref<>>
     gdbpy_reggroup_object_map;

   /* If there is not already a suitable Python object in the map then
      create a new one, and add it to the map.  */
   if (gdbpy_reggroup_object_map[reggroup] == nullptr)
     {
       /* Create a new object and fill in its details.  */
       gdbpy_ref<reggroup_object> group
 	(PyObject_New (reggroup_object, &reggroup_object_type));
       if (group == NULL)
 	return NULL;
       group->reggroup = reggroup;
       gdbpy_reggroup_object_map[reggroup]
 	= gdbpy_ref<> ((PyObject *) group.release ());
     }

   /* Fetch the Python object wrapping REGGROUP from the map, increasing
      the reference count is handled by the gdbpy_ref class.  */
   return gdbpy_reggroup_object_map[reggroup];
 }

 /* Convert a gdb.RegisterGroup to a string, it just returns the name of
    the register group.  */

 static PyObject *
 gdbpy_reggroup_to_string (PyObject *self)
 {
   reggroup_object *group = (reggroup_object *) self;
   const reggroup *reggroup = group->reggroup;

   return PyUnicode_FromString (reggroup->name ());
 }

 /* Implement gdb.RegisterGroup.name (self) -> String.
    Return a string that is the name of this register group.  */

 static PyObject *
 gdbpy_reggroup_name (PyObject *self, void *closure)
 {
   return gdbpy_reggroup_to_string (self);
 }

 /* Return a gdb.RegisterDescriptor object for REGNUM from GDBARCH.  For
    each REGNUM (in GDBARCH) only one descriptor is ever created, which is
    then cached on the GDBARCH.  */

 static gdbpy_ref<>
 gdbpy_get_register_descriptor (struct gdbarch *gdbarch,
 			       int regnum)
 {
   gdbpy_register_type *vecp = gdbpy_register_object_data.get (gdbarch);
   if (vecp == nullptr)
     vecp = gdbpy_register_object_data.emplace (gdbarch);
   gdbpy_register_type &vec = *vecp;

   /* Ensure that we have enough entries in the vector.  */
   if (vec.size () <= regnum)
     vec.resize ((regnum + 1), nullptr);

   /* If we don't already have a descriptor for REGNUM in GDBARCH then
      create one now.  */
   if (vec[regnum] == nullptr)
     {
       gdbpy_ref <register_descriptor_object> reg
 	(PyObject_New (register_descriptor_object,
 		       &register_descriptor_object_type));
       if (reg == NULL)
 	return NULL;
       reg->regnum = regnum;
       reg->gdbarch = gdbarch;
       vec[regnum] = gdbpy_ref<> ((PyObject *) reg.release ());
     }

   /* Grab the register descriptor from the vector, the reference count is
      automatically incremented thanks to gdbpy_ref.  */
   return vec[regnum];
 }

 /* Convert the register descriptor to a string.  */

 static PyObject *
 gdbpy_register_descriptor_to_string (PyObject *self)
 {
   register_descriptor_object *reg
     = (register_descriptor_object *) self;
   struct gdbarch *gdbarch = reg->gdbarch;
   int regnum = reg->regnum;

   const char *name = gdbarch_register_name (gdbarch, regnum);
   return PyUnicode_FromString (name);
 }

 /* Implement gdb.RegisterDescriptor.name attribute get function.  Return a
    string that is the name of this register.  Due to checking when register
    descriptors are created the name will never by the empty string.  */

 static PyObject *
 gdbpy_register_descriptor_name (PyObject *self, void *closure)
 {
   return gdbpy_register_descriptor_to_string (self);
 }

 /* Return a reference to the gdb.RegisterGroupsIterator object.  */

 static PyObject *
 gdbpy_reggroup_iter (PyObject *self)
 {
   Py_INCREF (self);
   return self;
 }

 /* Return the next gdb.RegisterGroup object from the iterator.  */

 static PyObject *
 gdbpy_reggroup_iter_next (PyObject *self)
 {
   reggroup_iterator_object *iter_obj
     = (reggroup_iterator_object *) self;

   const std::vector<const reggroup *> &groups
     = gdbarch_reggroups (iter_obj->gdbarch);
   if (iter_obj->index >= groups.size ())
     {
       PyErr_SetString (PyExc_StopIteration, _("No more groups"));
       return NULL;
     }

   const reggroup *group = groups[iter_obj->index];
   iter_obj->index++;
   return gdbpy_get_reggroup (group).release ();
 }

 /* Return a new gdb.RegisterGroupsIterator over all the register groups in
    GDBARCH.  */

 PyObject *
 gdbpy_new_reggroup_iterator (struct gdbarch *gdbarch)
 {
   gdb_assert (gdbarch != nullptr);

   /* Create a new object and fill in its internal state.  */
   reggroup_iterator_object *iter
     = PyObject_New (reggroup_iterator_object,
 		    &reggroup_iterator_object_type);
   if (iter == NULL)
     return NULL;
   iter->index = 0;
   iter->gdbarch = gdbarch;
   return (PyObject *) iter;
 }

 /* Create and return a new gdb.RegisterDescriptorIterator object which
    will iterate over all registers in GROUP_NAME for GDBARCH.  If
    GROUP_NAME is either NULL or the empty string then the ALL_REGGROUP is
    used, otherwise lookup the register group matching GROUP_NAME and use
    that.

    This function can return NULL if GROUP_NAME isn't found.  */

 PyObject *
 gdbpy_new_register_descriptor_iterator (struct gdbarch *gdbarch,
 					const char *group_name)
 {
   const reggroup *grp = NULL;

   /* Lookup the requested register group, or find the default.  */
   if (group_name == NULL || *group_name == '\0')
     grp = all_reggroup;
   else
     {
       grp = reggroup_find (gdbarch, group_name);
       if (grp == NULL)
 	{
 	  PyErr_SetString (PyExc_ValueError,
 			   _("Unknown register group name."));
 	  return NULL;
 	}
     }
   /* Create a new iterator object initialised for this architecture and
      fill in all of the details.  */
   register_descriptor_iterator_object *iter
     = PyObject_New (register_descriptor_iterator_object,
 		    &register_descriptor_iterator_object_type);
   if (iter == NULL)
     return NULL;
   iter->regnum = 0;
   iter->gdbarch = gdbarch;
   gdb_assert (grp != NULL);
   iter->reggroup = grp;

   return (PyObject *) iter;
 }

 /* Return a reference to the gdb.RegisterDescriptorIterator object.  */

 static PyObject *
 gdbpy_register_descriptor_iter (PyObject *self)
 {
   Py_INCREF (self);
   return self;
 }

 /* Return the next register name.  */

 static PyObject *
 gdbpy_register_descriptor_iter_next (PyObject *self)
 {
   register_descriptor_iterator_object *iter_obj
     = (register_descriptor_iterator_object *) self;
   struct gdbarch *gdbarch = iter_obj->gdbarch;

   do
     {
       if (iter_obj->regnum >= gdbarch_num_cooked_regs (gdbarch))
 	{
 	  PyErr_SetString (PyExc_StopIteration, _("No more registers"));
 	  return NULL;
 	}

       const char *name = nullptr;
       int regnum = iter_obj->regnum;
       if (gdbarch_register_reggroup_p (gdbarch, regnum,
 				       iter_obj->reggroup))
 	name = gdbarch_register_name (gdbarch, regnum);
       iter_obj->regnum++;

       if (name != nullptr && *name != '\0')
 	return gdbpy_get_register_descriptor (gdbarch, regnum).release ();
     }
   while (true);
 }

 /* Implement:

    gdb.RegisterDescriptorIterator.find (self, name) -> gdb.RegisterDescriptor

    Look up a descriptor for register with NAME.  If no matching register is
    found then return None.  */

 static PyObject *
 register_descriptor_iter_find (PyObject *self, PyObject *args, PyObject *kw)
 {
   static const char *keywords[] = { "name", NULL };
   const char *register_name = NULL;

   register_descriptor_iterator_object *iter_obj
     = (register_descriptor_iterator_object *) self;
   struct gdbarch *gdbarch = iter_obj->gdbarch;

   if (!gdb_PyArg_ParseTupleAndKeywords (args, kw, "s", keywords,
 					&register_name))
     return NULL;

   if (register_name != NULL && *register_name != '\0')
     {
       int regnum = user_reg_map_name_to_regnum (gdbarch, register_name,
 						strlen (register_name));
       if (regnum >= 0)
 	return gdbpy_get_register_descriptor (gdbarch, regnum).release ();
     }

   Py_RETURN_NONE;
 }

 /* See python-internal.h.  */

 bool
 gdbpy_parse_register_id (struct gdbarch *gdbarch, PyObject *pyo_reg_id,
 			 int *reg_num)
 {
   gdb_assert (pyo_reg_id != NULL);

   /* The register could be a string, its name.  */
   if (gdbpy_is_string (pyo_reg_id))
     {
       gdb::unique_xmalloc_ptr<char> reg_name (gdbpy_obj_to_string (pyo_reg_id));

       if (reg_name != NULL)
 	{
 	  *reg_num = user_reg_map_name_to_regnum (gdbarch, reg_name.get (),
 						  strlen (reg_name.get ()));
 	  if (*reg_num >= 0)
 	    return true;
 	  PyErr_SetString (PyExc_ValueError, "Bad register");
 	}
     }
   /* The register could be its internal GDB register number.  */
   else if (PyLong_Check (pyo_reg_id))
     {
       long value;
       if (gdb_py_int_as_long (pyo_reg_id, &value) == 0)
 	{
 	  /* Nothing -- error.  */
 	}
       else if ((int) value == value
 	       && user_reg_map_regnum_to_name (gdbarch, value) != NULL)
 	{
 	  *reg_num = (int) value;
 	  return true;
 	}
       else
 	PyErr_SetString (PyExc_ValueError, "Bad register");
     }
   /* The register could be a gdb.RegisterDescriptor object.  */
   else if (PyObject_IsInstance (pyo_reg_id,
 			   (PyObject *) &register_descriptor_object_type))
     {
       register_descriptor_object *reg
 	= (register_descriptor_object *) pyo_reg_id;
       if (reg->gdbarch == gdbarch)
 	{
 	  *reg_num = reg->regnum;
 	  return true;
 	}
       else
 	PyErr_SetString (PyExc_ValueError,
 			 _("Invalid Architecture in RegisterDescriptor"));
     }
   else
     PyErr_SetString (PyExc_TypeError, _("Invalid type for register"));

   gdb_assert (PyErr_Occurred ());
   return false;
 }

 /* Initializes the new Python classes from this file in the gdb module.  */

 static int CPYCHECKER_NEGATIVE_RESULT_SETS_EXCEPTION
 gdbpy_initialize_registers ()
 {
   register_descriptor_object_type.tp_new = PyType_GenericNew;
   if (PyType_Ready (&register_descriptor_object_type) < 0)
     return -1;
   if (gdb_pymodule_addobject
       (gdb_module, "RegisterDescriptor",
        (PyObject *) &register_descriptor_object_type) < 0)
     return -1;

   reggroup_iterator_object_type.tp_new = PyType_GenericNew;
   if (PyType_Ready (&reggroup_iterator_object_type) < 0)
     return -1;
   if (gdb_pymodule_addobject
       (gdb_module, "RegisterGroupsIterator",
        (PyObject *) &reggroup_iterator_object_type) < 0)
     return -1;

   reggroup_object_type.tp_new = PyType_GenericNew;
   if (PyType_Ready (&reggroup_object_type) < 0)
     return -1;
   if (gdb_pymodule_addobject
       (gdb_module, "RegisterGroup",
        (PyObject *) &reggroup_object_type) < 0)
     return -1;

   register_descriptor_iterator_object_type.tp_new = PyType_GenericNew;
   if (PyType_Ready (&register_descriptor_iterator_object_type) < 0)
     return -1;
   return (gdb_pymodule_addobject
 	  (gdb_module, "RegisterDescriptorIterator",
 	   (PyObject *) &register_descriptor_iterator_object_type));
 }

 GDBPY_INITIALIZE_FILE (gdbpy_initialize_registers);


 static PyMethodDef register_descriptor_iterator_object_methods [] = {
   { "find", (PyCFunction) register_descriptor_iter_find,
     METH_VARARGS | METH_KEYWORDS,
     "registers (name) -> gdb.RegisterDescriptor.\n\
 Return a register descriptor for the register NAME, or None if no register\n\
 with that name exists in this iterator." },
   {NULL}  /* Sentinel */
 };

 PyTypeObject register_descriptor_iterator_object_type = {
   PyVarObject_HEAD_INIT (NULL, 0)
   "gdb.RegisterDescriptorIterator",	  	/*tp_name*/
   sizeof (register_descriptor_iterator_object),	/*tp_basicsize*/
   0,				  /*tp_itemsize*/
   0,				  /*tp_dealloc*/
   0,				  /*tp_print*/
   0,				  /*tp_getattr*/
   0,				  /*tp_setattr*/
   0,				  /*tp_compare*/
   0,				  /*tp_repr*/
   0,				  /*tp_as_number*/
   0,				  /*tp_as_sequence*/
   0,				  /*tp_as_mapping*/
   0,				  /*tp_hash */
   0,				  /*tp_call*/
   0,				  /*tp_str*/
   0,				  /*tp_getattro*/
   0,				  /*tp_setattro*/
   0,				  /*tp_as_buffer*/
   Py_TPFLAGS_DEFAULT,		  /*tp_flags*/
   "GDB architecture register descriptor iterator object",	/*tp_doc */
   0,				  /*tp_traverse */
   0,				  /*tp_clear */
   0,				  /*tp_richcompare */
   0,				  /*tp_weaklistoffset */
   gdbpy_register_descriptor_iter,	  /*tp_iter */
   gdbpy_register_descriptor_iter_next,  /*tp_iternext */
   register_descriptor_iterator_object_methods		/*tp_methods */
 };

 static gdb_PyGetSetDef gdbpy_register_descriptor_getset[] = {
   { "name", gdbpy_register_descriptor_name, NULL,
     "The name of this register.", NULL },
   { NULL }  /* Sentinel */
 };

 PyTypeObject register_descriptor_object_type = {
   PyVarObject_HEAD_INIT (NULL, 0)
   "gdb.RegisterDescriptor",	  /*tp_name*/
   sizeof (register_descriptor_object),	/*tp_basicsize*/
   0,				  /*tp_itemsize*/
   0,				  /*tp_dealloc*/
   0,				  /*tp_print*/
   0,				  /*tp_getattr*/
   0,				  /*tp_setattr*/
   0,				  /*tp_compare*/
   0,				  /*tp_repr*/
   0,				  /*tp_as_number*/
   0,				  /*tp_as_sequence*/
   0,				  /*tp_as_mapping*/
   0,				  /*tp_hash */
   0,				  /*tp_call*/
   gdbpy_register_descriptor_to_string,			/*tp_str*/
   0,				  /*tp_getattro*/
   0,				  /*tp_setattro*/
   0,				  /*tp_as_buffer*/
   Py_TPFLAGS_DEFAULT,		  /*tp_flags*/
   "GDB architecture register descriptor object",	/*tp_doc */
   0,				  /*tp_traverse */
   0,				  /*tp_clear */
   0,				  /*tp_richcompare */
   0,				  /*tp_weaklistoffset */
   0,				  /*tp_iter */
   0,				  /*tp_iternext */
   0,				  /*tp_methods */
   0,				  /*tp_members */
   gdbpy_register_descriptor_getset			/*tp_getset */
 };

 PyTypeObject reggroup_iterator_object_type = {
   PyVarObject_HEAD_INIT (NULL, 0)
   "gdb.RegisterGroupsIterator",	  /*tp_name*/
   sizeof (reggroup_iterator_object),		/*tp_basicsize*/
   0,				  /*tp_itemsize*/
   0,				  /*tp_dealloc*/
   0,				  /*tp_print*/
   0,				  /*tp_getattr*/
   0,				  /*tp_setattr*/
   0,				  /*tp_compare*/
   0,				  /*tp_repr*/
   0,				  /*tp_as_number*/
   0,				  /*tp_as_sequence*/
   0,				  /*tp_as_mapping*/
   0,				  /*tp_hash */
   0,				  /*tp_call*/
   0,				  /*tp_str*/
   0,				  /*tp_getattro*/
   0,				  /*tp_setattro*/
   0,				  /*tp_as_buffer*/
   Py_TPFLAGS_DEFAULT,		  /*tp_flags*/
   "GDB register groups iterator object",	/*tp_doc */
   0,				  /*tp_traverse */
   0,				  /*tp_clear */
   0,				  /*tp_richcompare */
   0,				  /*tp_weaklistoffset */
   gdbpy_reggroup_iter,		  /*tp_iter */
   gdbpy_reggroup_iter_next,	  /*tp_iternext */
   0				  /*tp_methods */
 };

 static gdb_PyGetSetDef gdbpy_reggroup_getset[] = {
   { "name", gdbpy_reggroup_name, NULL,
     "The name of this register group.", NULL },
   { NULL }  /* Sentinel */
 };

 PyTypeObject reggroup_object_type = {
   PyVarObject_HEAD_INIT (NULL, 0)
   "gdb.RegisterGroup",		  /*tp_name*/
   sizeof (reggroup_object),	  /*tp_basicsize*/
   0,				  /*tp_itemsize*/
   0,				  /*tp_dealloc*/
   0,				  /*tp_print*/
   0,				  /*tp_getattr*/
   0,				  /*tp_setattr*/
   0,				  /*tp_compare*/
   0,				  /*tp_repr*/
   0,				  /*tp_as_number*/
   0,				  /*tp_as_sequence*/
   0,				  /*tp_as_mapping*/
   0,				  /*tp_hash */
   0,				  /*tp_call*/
   gdbpy_reggroup_to_string,	  /*tp_str*/
   0,				  /*tp_getattro*/
   0,				  /*tp_setattro*/
   0,				  /*tp_as_buffer*/
   Py_TPFLAGS_DEFAULT,		  /*tp_flags*/
   "GDB register group object",	  /*tp_doc */
   0,				  /*tp_traverse */
   0,				  /*tp_clear */
   0,				  /*tp_richcompare */
   0,				  /*tp_weaklistoffset */
   0,				  /*tp_iter */
   0,				  /*tp_iternext */
   0,				  /*tp_methods */
   0,				  /*tp_members */
   gdbpy_reggroup_getset		  /*tp_getset */
 };
	/* Python interface to register, and register group information.

	Copyright (C) 2020-2024 Free Software Foundation, Inc.

	This file is part of GDB.

	This program 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.

	This program 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 this program. If not, see <http://www.gnu.org/licenses/>. */

	#include "gdbarch.h"
	#include "arch-utils.h"
	#include "reggroups.h"
	#include "python-internal.h"
	#include "user-regs.h"
	#include <unordered_map>

	/* Per-gdbarch data type. */
	typedef std::vector<gdbpy_ref<>> gdbpy_register_type;

	/* Token to access per-gdbarch data related to register descriptors. */
	static const registry<gdbarch>::key<gdbpy_register_type>
	gdbpy_register_object_data;

	/* Structure for iterator over register descriptors. */
	struct register_descriptor_iterator_object {
	PyObject_HEAD

	/* The register group that the user is iterating over. This will never
	be NULL. */
	const struct reggroup *reggroup;

	/* The next register number to lookup. Starts at 0 and counts up. */
	int regnum;

	/* Pointer back to the architecture we're finding registers for. */
	struct gdbarch *gdbarch;
	};

	extern PyTypeObject register_descriptor_iterator_object_type
	CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("register_descriptor_iterator_object");

	/* A register descriptor. */
	struct register_descriptor_object {
	PyObject_HEAD

	/* The register this is a descriptor for. */
	int regnum;

	/* The architecture this is a register for. */
	struct gdbarch *gdbarch;
	};

	extern PyTypeObject register_descriptor_object_type
	CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("register_descriptor_object");

	/* Structure for iterator over register groups. */
	struct reggroup_iterator_object {
	PyObject_HEAD

	/* The index into GROUPS for the next group to return. */
	std::vector<const reggroup *>::size_type index;

	/* Pointer back to the architecture we're finding registers for. */
	struct gdbarch *gdbarch;
	};

	extern PyTypeObject reggroup_iterator_object_type
	CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("reggroup_iterator_object");

	/* A register group object. */
	struct reggroup_object {
	PyObject_HEAD

	/* The register group being described. */
	const struct reggroup *reggroup;
	};

	extern PyTypeObject reggroup_object_type
	CPYCHECKER_TYPE_OBJECT_FOR_TYPEDEF ("reggroup_object");

	/* Return a gdb.RegisterGroup object wrapping REGGROUP. The register
	group objects are cached, and the same Python object will always be
	returned for the same REGGROUP pointer. */

	static gdbpy_ref<>
	gdbpy_get_reggroup (const reggroup *reggroup)
	{
	/* Map from GDB's internal reggroup objects to the Python representation.
	GDB's reggroups are global, and are never deleted, so using a map like
	this is safe. */
	static std::unordered_map<const struct reggroup *,gdbpy_ref<>>
	gdbpy_reggroup_object_map;

	/* If there is not already a suitable Python object in the map then
	create a new one, and add it to the map. */
	if (gdbpy_reggroup_object_map[reggroup] == nullptr)
	{
	/* Create a new object and fill in its details. */
	gdbpy_ref<reggroup_object> group
	(PyObject_New (reggroup_object, &reggroup_object_type));
	if (group == NULL)
	return NULL;
	group->reggroup = reggroup;
	gdbpy_reggroup_object_map[reggroup]
	= gdbpy_ref<> ((PyObject *) group.release ());
	}

	/* Fetch the Python object wrapping REGGROUP from the map, increasing
	the reference count is handled by the gdbpy_ref class. */
	return gdbpy_reggroup_object_map[reggroup];
	}

	/* Convert a gdb.RegisterGroup to a string, it just returns the name of
	the register group. */

	static PyObject *
	gdbpy_reggroup_to_string (PyObject *self)
	{
	reggroup_object group = (reggroup_object ) self;
	const reggroup *reggroup = group->reggroup;

	return PyUnicode_FromString (reggroup->name ());
	}

	/* Implement gdb.RegisterGroup.name (self) -> String.
	Return a string that is the name of this register group. */

	static PyObject *
	gdbpy_reggroup_name (PyObject self, void closure)
	{
	return gdbpy_reggroup_to_string (self);
	}

	/* Return a gdb.RegisterDescriptor object for REGNUM from GDBARCH. For
	each REGNUM (in GDBARCH) only one descriptor is ever created, which is
	then cached on the GDBARCH. */

	static gdbpy_ref<>
	gdbpy_get_register_descriptor (struct gdbarch *gdbarch,
	int regnum)
	{
	gdbpy_register_type *vecp = gdbpy_register_object_data.get (gdbarch);
	if (vecp == nullptr)
	vecp = gdbpy_register_object_data.emplace (gdbarch);
	gdbpy_register_type &vec = *vecp;

	/* Ensure that we have enough entries in the vector. */
	if (vec.size () <= regnum)
	vec.resize ((regnum + 1), nullptr);

	/* If we don't already have a descriptor for REGNUM in GDBARCH then
	create one now. */
	if (vec[regnum] == nullptr)
	{
	gdbpy_ref <register_descriptor_object> reg
	(PyObject_New (register_descriptor_object,
	&register_descriptor_object_type));
	if (reg == NULL)
	return NULL;
	reg->regnum = regnum;
	reg->gdbarch = gdbarch;
	vec[regnum] = gdbpy_ref<> ((PyObject *) reg.release ());
	}

	/* Grab the register descriptor from the vector, the reference count is
	automatically incremented thanks to gdbpy_ref. */
	return vec[regnum];
	}

	/* Convert the register descriptor to a string. */

	static PyObject *
	gdbpy_register_descriptor_to_string (PyObject *self)
	{
	register_descriptor_object *reg
	= (register_descriptor_object *) self;
	struct gdbarch *gdbarch = reg->gdbarch;
	int regnum = reg->regnum;

	const char *name = gdbarch_register_name (gdbarch, regnum);
	return PyUnicode_FromString (name);
	}

	/* Implement gdb.RegisterDescriptor.name attribute get function. Return a
	string that is the name of this register. Due to checking when register
	descriptors are created the name will never by the empty string. */

	static PyObject *
	gdbpy_register_descriptor_name (PyObject self, void closure)
	{
	return gdbpy_register_descriptor_to_string (self);
	}

	/* Return a reference to the gdb.RegisterGroupsIterator object. */

	static PyObject *
	gdbpy_reggroup_iter (PyObject *self)
	{
	Py_INCREF (self);
	return self;
	}

	/* Return the next gdb.RegisterGroup object from the iterator. */

	static PyObject *
	gdbpy_reggroup_iter_next (PyObject *self)
	{
	reggroup_iterator_object *iter_obj
	= (reggroup_iterator_object *) self;

	const std::vector<const reggroup *> &groups
	= gdbarch_reggroups (iter_obj->gdbarch);
	if (iter_obj->index >= groups.size ())
	{
	PyErr_SetString (PyExc_StopIteration, _("No more groups"));
	return NULL;
	}

	const reggroup *group = groups[iter_obj->index];
	iter_obj->index++;
	return gdbpy_get_reggroup (group).release ();
	}

	/* Return a new gdb.RegisterGroupsIterator over all the register groups in
	GDBARCH. */

	PyObject *
	gdbpy_new_reggroup_iterator (struct gdbarch *gdbarch)
	{
	gdb_assert (gdbarch != nullptr);

	/* Create a new object and fill in its internal state. */
	reggroup_iterator_object *iter
	= PyObject_New (reggroup_iterator_object,
	&reggroup_iterator_object_type);
	if (iter == NULL)
	return NULL;
	iter->index = 0;
	iter->gdbarch = gdbarch;
	return (PyObject *) iter;
	}

	/* Create and return a new gdb.RegisterDescriptorIterator object which
	will iterate over all registers in GROUP_NAME for GDBARCH. If
	GROUP_NAME is either NULL or the empty string then the ALL_REGGROUP is
	used, otherwise lookup the register group matching GROUP_NAME and use
	that.

	This function can return NULL if GROUP_NAME isn't found. */

	PyObject *
	gdbpy_new_register_descriptor_iterator (struct gdbarch *gdbarch,
	const char *group_name)
	{
	const reggroup *grp = NULL;

	/* Lookup the requested register group, or find the default. */
	if (group_name == NULL \|\| *group_name == '\0')
	grp = all_reggroup;
	else
	{
	grp = reggroup_find (gdbarch, group_name);
	if (grp == NULL)
	{
	PyErr_SetString (PyExc_ValueError,
	_("Unknown register group name."));
	return NULL;
	}
	}
	/* Create a new iterator object initialised for this architecture and
	fill in all of the details. */
	register_descriptor_iterator_object *iter
	= PyObject_New (register_descriptor_iterator_object,
	&register_descriptor_iterator_object_type);
	if (iter == NULL)
	return NULL;
	iter->regnum = 0;
	iter->gdbarch = gdbarch;
	gdb_assert (grp != NULL);
	iter->reggroup = grp;

	return (PyObject *) iter;
	}

	/* Return a reference to the gdb.RegisterDescriptorIterator object. */

	static PyObject *
	gdbpy_register_descriptor_iter (PyObject *self)
	{
	Py_INCREF (self);
	return self;
	}

	/* Return the next register name. */

	static PyObject *
	gdbpy_register_descriptor_iter_next (PyObject *self)
	{
	register_descriptor_iterator_object *iter_obj
	= (register_descriptor_iterator_object *) self;
	struct gdbarch *gdbarch = iter_obj->gdbarch;

	do
	{
	if (iter_obj->regnum >= gdbarch_num_cooked_regs (gdbarch))
	{
	PyErr_SetString (PyExc_StopIteration, _("No more registers"));
	return NULL;
	}

	const char *name = nullptr;
	int regnum = iter_obj->regnum;
	if (gdbarch_register_reggroup_p (gdbarch, regnum,
	iter_obj->reggroup))
	name = gdbarch_register_name (gdbarch, regnum);
	iter_obj->regnum++;

	if (name != nullptr && *name != '\0')
	return gdbpy_get_register_descriptor (gdbarch, regnum).release ();
	}
	while (true);
	}

	/* Implement:

	gdb.RegisterDescriptorIterator.find (self, name) -> gdb.RegisterDescriptor

	Look up a descriptor for register with NAME. If no matching register is
	found then return None. */

	static PyObject *
	register_descriptor_iter_find (PyObject self, PyObject args, PyObject *kw)
	{
	static const char *keywords[] = { "name", NULL };
	const char *register_name = NULL;

	register_descriptor_iterator_object *iter_obj
	= (register_descriptor_iterator_object *) self;
	struct gdbarch *gdbarch = iter_obj->gdbarch;

	if (!gdb_PyArg_ParseTupleAndKeywords (args, kw, "s", keywords,
	&register_name))
	return NULL;

	if (register_name != NULL && *register_name != '\0')
	{
	int regnum = user_reg_map_name_to_regnum (gdbarch, register_name,
	strlen (register_name));
	if (regnum >= 0)
	return gdbpy_get_register_descriptor (gdbarch, regnum).release ();
	}

	Py_RETURN_NONE;
	}

	/* See python-internal.h. */

	bool
	gdbpy_parse_register_id (struct gdbarch gdbarch, PyObject pyo_reg_id,
	int *reg_num)
	{
	gdb_assert (pyo_reg_id != NULL);

	/* The register could be a string, its name. */
	if (gdbpy_is_string (pyo_reg_id))
	{
	gdb::unique_xmalloc_ptr<char> reg_name (gdbpy_obj_to_string (pyo_reg_id));

	if (reg_name != NULL)
	{
	*reg_num = user_reg_map_name_to_regnum (gdbarch, reg_name.get (),
	strlen (reg_name.get ()));
	if (*reg_num >= 0)
	return true;
	PyErr_SetString (PyExc_ValueError, "Bad register");
	}
	}
	/* The register could be its internal GDB register number. */
	else if (PyLong_Check (pyo_reg_id))
	{
	long value;
	if (gdb_py_int_as_long (pyo_reg_id, &value) == 0)
	{
	/* Nothing -- error. */
	}
	else if ((int) value == value
	&& user_reg_map_regnum_to_name (gdbarch, value) != NULL)
	{
	*reg_num = (int) value;
	return true;
	}
	else
	PyErr_SetString (PyExc_ValueError, "Bad register");
	}
	/* The register could be a gdb.RegisterDescriptor object. */
	else if (PyObject_IsInstance (pyo_reg_id,
	(PyObject *) &register_descriptor_object_type))
	{
	register_descriptor_object *reg
	= (register_descriptor_object *) pyo_reg_id;
	if (reg->gdbarch == gdbarch)
	{
	*reg_num = reg->regnum;
	return true;
	}
	else
	PyErr_SetString (PyExc_ValueError,
	_("Invalid Architecture in RegisterDescriptor"));
	}
	else
	PyErr_SetString (PyExc_TypeError, _("Invalid type for register"));

	gdb_assert (PyErr_Occurred ());
	return false;
	}

	/* Initializes the new Python classes from this file in the gdb module. */

	static int CPYCHECKER_NEGATIVE_RESULT_SETS_EXCEPTION
	gdbpy_initialize_registers ()
	{
	register_descriptor_object_type.tp_new = PyType_GenericNew;
	if (PyType_Ready (&register_descriptor_object_type) < 0)
	return -1;
	if (gdb_pymodule_addobject
	(gdb_module, "RegisterDescriptor",
	(PyObject *) &register_descriptor_object_type) < 0)
	return -1;

	reggroup_iterator_object_type.tp_new = PyType_GenericNew;
	if (PyType_Ready (&reggroup_iterator_object_type) < 0)
	return -1;
	if (gdb_pymodule_addobject
	(gdb_module, "RegisterGroupsIterator",
	(PyObject *) &reggroup_iterator_object_type) < 0)
	return -1;

	reggroup_object_type.tp_new = PyType_GenericNew;
	if (PyType_Ready (&reggroup_object_type) < 0)
	return -1;
	if (gdb_pymodule_addobject
	(gdb_module, "RegisterGroup",
	(PyObject *) &reggroup_object_type) < 0)
	return -1;

	register_descriptor_iterator_object_type.tp_new = PyType_GenericNew;
	if (PyType_Ready (&register_descriptor_iterator_object_type) < 0)
	return -1;
	return (gdb_pymodule_addobject
	(gdb_module, "RegisterDescriptorIterator",
	(PyObject *) &register_descriptor_iterator_object_type));
	}

	GDBPY_INITIALIZE_FILE (gdbpy_initialize_registers);



	static PyMethodDef register_descriptor_iterator_object_methods [] = {
	{ "find", (PyCFunction) register_descriptor_iter_find,
	METH_VARARGS \| METH_KEYWORDS,
	"registers (name) -> gdb.RegisterDescriptor.\n\
	Return a register descriptor for the register NAME, or None if no register\n\
	with that name exists in this iterator." },
	{NULL} /* Sentinel */
	};

	PyTypeObject register_descriptor_iterator_object_type = {
	PyVarObject_HEAD_INIT (NULL, 0)
	"gdb.RegisterDescriptorIterator", /tp_name/
	sizeof (register_descriptor_iterator_object), /tp_basicsize/
	0, /tp_itemsize/
	0, /tp_dealloc/
	0, /tp_print/
	0, /tp_getattr/
	0, /tp_setattr/
	0, /tp_compare/
	0, /tp_repr/
	0, /tp_as_number/
	0, /tp_as_sequence/
	0, /tp_as_mapping/
	0, /tp_hash /
	0, /tp_call/
	0, /tp_str/
	0, /tp_getattro/
	0, /tp_setattro/
	0, /tp_as_buffer/
	Py_TPFLAGS_DEFAULT, /tp_flags/
	"GDB architecture register descriptor iterator object", /tp_doc /
	0, /tp_traverse /
	0, /tp_clear /
	0, /tp_richcompare /
	0, /tp_weaklistoffset /
	gdbpy_register_descriptor_iter, /tp_iter /
	gdbpy_register_descriptor_iter_next, /tp_iternext /
	register_descriptor_iterator_object_methods /tp_methods /
	};

	static gdb_PyGetSetDef gdbpy_register_descriptor_getset[] = {
	{ "name", gdbpy_register_descriptor_name, NULL,
	"The name of this register.", NULL },
	{ NULL } /* Sentinel */
	};

	PyTypeObject register_descriptor_object_type = {
	PyVarObject_HEAD_INIT (NULL, 0)
	"gdb.RegisterDescriptor", /tp_name/
	sizeof (register_descriptor_object), /tp_basicsize/
	0, /tp_itemsize/
	0, /tp_dealloc/
	0, /tp_print/
	0, /tp_getattr/
	0, /tp_setattr/
	0, /tp_compare/
	0, /tp_repr/
	0, /tp_as_number/
	0, /tp_as_sequence/
	0, /tp_as_mapping/
	0, /tp_hash /
	0, /tp_call/
	gdbpy_register_descriptor_to_string, /tp_str/
	0, /tp_getattro/
	0, /tp_setattro/
	0, /tp_as_buffer/
	Py_TPFLAGS_DEFAULT, /tp_flags/
	"GDB architecture register descriptor object", /tp_doc /
	0, /tp_traverse /
	0, /tp_clear /
	0, /tp_richcompare /
	0, /tp_weaklistoffset /
	0, /tp_iter /
	0, /tp_iternext /
	0, /tp_methods /
	0, /tp_members /
	gdbpy_register_descriptor_getset /tp_getset /
	};

	PyTypeObject reggroup_iterator_object_type = {
	PyVarObject_HEAD_INIT (NULL, 0)
	"gdb.RegisterGroupsIterator", /tp_name/
	sizeof (reggroup_iterator_object), /tp_basicsize/
	0, /tp_itemsize/
	0, /tp_dealloc/
	0, /tp_print/
	0, /tp_getattr/
	0, /tp_setattr/
	0, /tp_compare/
	0, /tp_repr/
	0, /tp_as_number/
	0, /tp_as_sequence/
	0, /tp_as_mapping/
	0, /tp_hash /
	0, /tp_call/
	0, /tp_str/
	0, /tp_getattro/
	0, /tp_setattro/
	0, /tp_as_buffer/
	Py_TPFLAGS_DEFAULT, /tp_flags/
	"GDB register groups iterator object", /tp_doc /
	0, /tp_traverse /
	0, /tp_clear /
	0, /tp_richcompare /
	0, /tp_weaklistoffset /
	gdbpy_reggroup_iter, /tp_iter /
	gdbpy_reggroup_iter_next, /tp_iternext /
	0 /tp_methods /
	};

	static gdb_PyGetSetDef gdbpy_reggroup_getset[] = {
	{ "name", gdbpy_reggroup_name, NULL,
	"The name of this register group.", NULL },
	{ NULL } /* Sentinel */
	};

	PyTypeObject reggroup_object_type = {
	PyVarObject_HEAD_INIT (NULL, 0)
	"gdb.RegisterGroup", /tp_name/
	sizeof (reggroup_object), /tp_basicsize/
	0, /tp_itemsize/
	0, /tp_dealloc/
	0, /tp_print/
	0, /tp_getattr/
	0, /tp_setattr/
	0, /tp_compare/
	0, /tp_repr/
	0, /tp_as_number/
	0, /tp_as_sequence/
	0, /tp_as_mapping/
	0, /tp_hash /
	0, /tp_call/
	gdbpy_reggroup_to_string, /tp_str/
	0, /tp_getattro/
	0, /tp_setattro/
	0, /tp_as_buffer/
	Py_TPFLAGS_DEFAULT, /tp_flags/
	"GDB register group object", /tp_doc /
	0, /tp_traverse /
	0, /tp_clear /
	0, /tp_richcompare /
	0, /tp_weaklistoffset /
	0, /tp_iter /
	0, /tp_iternext /
	0, /tp_methods /
	0, /tp_members /
	gdbpy_reggroup_getset /tp_getset /
	};