/* Data structures */
/* Every root variable has one of these structures saved in its
- varobj. Members which must be free'd are noted. */
+ varobj. */
struct varobj_root
{
- /* Alloc'd expression for this parent. */
- struct expression *exp;
+ /* The expression for this parent. */
+ expression_up exp;
/* Block for which this expression is valid. */
const struct block *valid_block;
varobj_item *saved_item;
};
-struct cpstack
-{
- char *name;
- struct cpstack *next;
-};
-
/* A list of varobjs */
struct vlist
/* Helper functions for the above subcommands. */
-static int delete_variable (struct cpstack **, struct varobj *, int);
+static int delete_variable (struct varobj *, int);
-static void delete_variable_1 (struct cpstack **, int *,
- struct varobj *, int, int);
+static void delete_variable_1 (int *, struct varobj *, int, int);
static int install_variable (struct varobj *);
static void uninstall_variable (struct varobj *);
-static struct varobj *create_child (struct varobj *, int, char *);
+static struct varobj *create_child (struct varobj *, int, std::string &);
static struct varobj *
create_child_with_value (struct varobj *parent, int index,
static enum varobj_display_formats variable_default_display (struct varobj *);
-static void cppush (struct cpstack **pstack, char *name);
-
-static char *cppop (struct cpstack **pstack);
-
static int update_type_if_necessary (struct varobj *var,
struct value *new_value);
static int number_of_children (const struct varobj *);
-static char *name_of_variable (const struct varobj *);
+static std::string name_of_variable (const struct varobj *);
-static char *name_of_child (struct varobj *, int);
+static std::string name_of_child (struct varobj *, int);
static struct value *value_of_root (struct varobj **var_handle, int *);
static struct value *value_of_child (const struct varobj *parent, int index);
-static char *my_value_of_variable (struct varobj *var,
- enum varobj_display_formats format);
+static std::string my_value_of_variable (struct varobj *var,
+ enum varobj_display_formats format);
static int is_root_p (const struct varobj *var);
/* Creates a varobj (not its children). */
struct varobj *
-varobj_create (char *objname,
- char *expression, CORE_ADDR frame, enum varobj_type type)
+varobj_create (const char *objname,
+ const char *expression, CORE_ADDR frame, enum varobj_type type)
{
struct varobj *var;
struct cleanup *old_chain;
var->format = variable_default_display (var);
var->root->valid_block = innermost_block;
- var->name = xstrdup (expression);
+ var->name = expression;
/* For a root var, the name and the expr are the same. */
- var->path_expr = xstrdup (expression);
+ var->path_expr = expression;
/* When the frame is different from the current frame,
we must select the appropriate frame before parsing
But if it fails, we still go on with a call to evaluate_type(). */
TRY
{
- value = evaluate_expression (var->root->exp);
+ value = evaluate_expression (var->root->exp.get ());
}
CATCH (except, RETURN_MASK_ERROR)
{
/* Error getting the value. Try to at least get the
right type. */
- struct value *type_only_value = evaluate_type (var->root->exp);
+ struct value *type_only_value = evaluate_type (var->root->exp.get ());
var->type = value_type (type_only_value);
}
if ((var != NULL) && (objname != NULL))
{
- var->obj_name = xstrdup (objname);
+ var->obj_name = objname;
/* If a varobj name is duplicated, the install will fail so
we must cleanup. */
error if OBJNAME cannot be found. */
struct varobj *
-varobj_get_handle (char *objname)
+varobj_get_handle (const char *objname)
{
struct vlist *cv;
const char *chp;
}
cv = *(varobj_table + index);
- while ((cv != NULL) && (strcmp (cv->var->obj_name, objname) != 0))
+ while (cv != NULL && cv->var->obj_name != objname)
cv = cv->next;
if (cv == NULL)
/* Given the handle, return the name of the object. */
-char *
+const char *
varobj_get_objname (const struct varobj *var)
{
- return var->obj_name;
+ return var->obj_name.c_str ();
}
-/* Given the handle, return the expression represented by the object. The
- result must be freed by the caller. */
+/* Given the handle, return the expression represented by the
+ object. */
-char *
+std::string
varobj_get_expression (const struct varobj *var)
{
return name_of_variable (var);
}
-/* Deletes a varobj and all its children if only_children == 0,
- otherwise deletes only the children. If DELLIST is non-NULL, it is
- assigned a malloc'ed list of all the (malloc'ed) names of the variables
- that have been deleted (NULL terminated). Returns the number of deleted
- variables. */
+/* See varobj.h. */
int
-varobj_delete (struct varobj *var, char ***dellist, int only_children)
+varobj_delete (struct varobj *var, int only_children)
{
- int delcount;
- int mycount;
- struct cpstack *result = NULL;
- char **cp;
-
- /* Initialize a stack for temporary results. */
- cppush (&result, NULL);
-
- if (only_children)
- /* Delete only the variable children. */
- delcount = delete_variable (&result, var, 1 /* only the children */ );
- else
- /* Delete the variable and all its children. */
- delcount = delete_variable (&result, var, 0 /* parent+children */ );
-
- /* We may have been asked to return a list of what has been deleted. */
- if (dellist != NULL)
- {
- *dellist = XNEWVEC (char *, delcount + 1);
-
- cp = *dellist;
- mycount = delcount;
- *cp = cppop (&result);
- while ((*cp != NULL) && (mycount > 0))
- {
- mycount--;
- cp++;
- *cp = cppop (&result);
- }
-
- if (mycount || (*cp != NULL))
- warning (_("varobj_delete: assertion failed - mycount(=%d) <> 0"),
- mycount);
- }
-
- return delcount;
+ return delete_variable (var, only_children);
}
#if HAVE_PYTHON
if (varobj_value_is_changeable_p (var)
&& var->value && !value_lazy (var->value))
{
- xfree (var->print_value);
var->print_value = varobj_value_get_print_value (var->value,
var->format, var);
}
return var->format;
}
-char *
+gdb::unique_xmalloc_ptr<char>
varobj_get_display_hint (const struct varobj *var)
{
- char *result = NULL;
+ gdb::unique_xmalloc_ptr<char> result;
#if HAVE_PYTHON
struct cleanup *back_to;
*cchanged = 1;
for (j = i; j < VEC_length (varobj_p, var->children); ++j)
- varobj_delete (VEC_index (varobj_p, var->children, j), NULL, 0);
+ varobj_delete (VEC_index (varobj_p, var->children, j), 0);
VEC_truncate (varobj_p, var->children, i);
}
VEC (varobj_p)*
varobj_list_children (struct varobj *var, int *from, int *to)
{
- char *name;
int i, children_changed;
var->dynamic->children_requested = 1;
/* Either it's the first call to varobj_list_children for
this variable object, and the child was never created,
or it was explicitly deleted by the client. */
- name = name_of_child (var, i);
+ std::string name = name_of_child (var, i);
existing = create_child (var, i, name);
VEC_replace (varobj_p, var->children, i, existing);
}
prints on the console. The caller is responsible for freeing the string.
*/
-char *
+std::string
varobj_get_type (struct varobj *var)
{
/* For the "fake" variables, do not return a type. (Its type is
NULL, too.)
Do not return a type for invalid variables as well. */
if (CPLUS_FAKE_CHILD (var) || !var->root->is_valid)
- return NULL;
+ return std::string ();
return type_to_string (var->type);
}
/* Return a pointer to the full rooted expression of varobj VAR.
If it has not been computed yet, compute it. */
-char *
+
+const char *
varobj_get_path_expr (const struct varobj *var)
{
- if (var->path_expr == NULL)
+ if (var->path_expr.empty ())
{
/* For root varobjs, we initialize path_expr
when creating varobj, so here it should be
mutable_var->path_expr = (*var->root->lang_ops->path_expr_of_child) (var);
}
- return var->path_expr;
+ return var->path_expr.c_str ();
}
const struct language_defn *
return var->dynamic->pretty_printer != NULL;
}
-char *
+std::string
varobj_get_formatted_value (struct varobj *var,
enum varobj_display_formats format)
{
return my_value_of_variable (var, format);
}
-char *
+std::string
varobj_get_value (struct varobj *var)
{
return my_value_of_variable (var, var->format);
/* Note: Invokes functions that can call error(). */
int
-varobj_set_value (struct varobj *var, char *expression)
+varobj_set_value (struct varobj *var, const char *expression)
{
struct value *val = NULL; /* Initialize to keep gcc happy. */
/* The argument "expression" contains the variable's new value.
We need to first construct a legal expression for this -- ugh! */
/* Does this cover all the bases? */
- struct expression *exp;
struct value *value = NULL; /* Initialize to keep gcc happy. */
int saved_input_radix = input_radix;
const char *s = expression;
gdb_assert (varobj_editable_p (var));
input_radix = 10; /* ALWAYS reset to decimal temporarily. */
- exp = parse_exp_1 (&s, 0, 0, 0);
+ expression_up exp = parse_exp_1 (&s, 0, 0, 0);
TRY
{
- value = evaluate_expression (exp);
+ value = evaluate_expression (exp.get ());
}
CATCH (except, RETURN_MASK_ERROR)
{
/* We cannot proceed without a valid expression. */
- xfree (exp);
return 0;
}
END_CATCH
get_user_print_options (&opts);
if (opts.objectprint)
{
- struct type *new_type;
- char *curr_type_str, *new_type_str;
- int type_name_changed;
-
- new_type = value_actual_type (new_value, 0, 0);
- new_type_str = type_to_string (new_type);
- curr_type_str = varobj_get_type (var);
- type_name_changed = strcmp (curr_type_str, new_type_str) != 0;
- xfree (curr_type_str);
- xfree (new_type_str);
+ struct type *new_type = value_actual_type (new_value, 0, 0);
+ std::string new_type_str = type_to_string (new_type);
+ std::string curr_type_str = varobj_get_type (var);
- if (type_name_changed)
+ /* Did the type name change? */
+ if (curr_type_str != new_type_str)
{
var->type = new_type;
/* This information may be not valid for a new type. */
- varobj_delete (var, NULL, 1);
+ varobj_delete (var, 1);
VEC_free (varobj_p, var->children);
var->num_children = -1;
return 1;
int need_to_fetch;
int changed = 0;
int intentionally_not_fetched = 0;
- char *print_value = NULL;
/* We need to know the varobj's type to decide if the value should
be fetched or not. C++ fake children (public/protected/private)
values. Don't get string rendering if the value is
lazy -- if it is, the code above has decided that the value
should not be fetched. */
+ std::string print_value;
if (value != NULL && !value_lazy (value)
&& var->dynamic->pretty_printer == NULL)
print_value = varobj_value_get_print_value (value, var->format, var);
gdb_assert (!value_lazy (var->value));
gdb_assert (!value_lazy (value));
- gdb_assert (var->print_value != NULL && print_value != NULL);
- if (strcmp (var->print_value, print_value) != 0)
+ gdb_assert (!var->print_value.empty () && !print_value.empty ());
+ if (var->print_value != print_value)
changed = 1;
}
}
to see if the variable changed. */
if (var->dynamic->pretty_printer != NULL)
{
- xfree (print_value);
print_value = varobj_value_get_print_value (var->value, var->format,
var);
- if ((var->print_value == NULL && print_value != NULL)
- || (var->print_value != NULL && print_value == NULL)
- || (var->print_value != NULL && print_value != NULL
- && strcmp (var->print_value, print_value) != 0))
- changed = 1;
+ if ((var->print_value.empty () && !print_value.empty ())
+ || (!var->print_value.empty () && print_value.empty ())
+ || (!var->print_value.empty () && !print_value.empty ()
+ && var->print_value != print_value))
+ changed = 1;
}
- if (var->print_value)
- xfree (var->print_value);
var->print_value = print_value;
gdb_assert (!var->value || value_type (var->value));
Py_XDECREF (constructor);
/* If there are any children now, wipe them. */
- varobj_delete (var, NULL, 1 /* children only */);
+ varobj_delete (var, 1 /* children only */);
var->num_children = -1;
do_cleanups (back_to);
{
/* The children are no longer valid; delete them now.
Report the fact that its type changed as well. */
- varobj_delete (v, NULL, 1 /* only_children */);
+ varobj_delete (v, 1 /* only_children */);
v->num_children = -1;
v->to = -1;
v->from = -1;
*/
static int
-delete_variable (struct cpstack **resultp, struct varobj *var,
- int only_children_p)
+delete_variable (struct varobj *var, int only_children_p)
{
int delcount = 0;
- delete_variable_1 (resultp, &delcount, var,
- only_children_p, 1 /* remove_from_parent_p */ );
+ delete_variable_1 (&delcount, var, only_children_p,
+ 1 /* remove_from_parent_p */ );
return delcount;
}
and the parent is not removed we dump core. It must be always
initially called with remove_from_parent_p set. */
static void
-delete_variable_1 (struct cpstack **resultp, int *delcountp,
- struct varobj *var, int only_children_p,
+delete_variable_1 (int *delcountp, struct varobj *var, int only_children_p,
int remove_from_parent_p)
{
int i;
continue;
if (!remove_from_parent_p)
child->parent = NULL;
- delete_variable_1 (resultp, delcountp, child, 0, only_children_p);
+ delete_variable_1 (delcountp, child, 0, only_children_p);
}
VEC_free (varobj_p, var->children);
return;
/* Otherwise, add it to the list of deleted ones and proceed to do so. */
- /* If the name is null, this is a temporary variable, that has not
+ /* If the name is empty, this is a temporary variable, that has not
yet been installed, don't report it, it belongs to the caller... */
- if (var->obj_name != NULL)
+ if (!var->obj_name.empty ())
{
- cppush (resultp, xstrdup (var->obj_name));
*delcountp = *delcountp + 1;
}
VEC_replace (varobj_p, var->parent->children, var->index, NULL);
}
- if (var->obj_name != NULL)
+ if (!var->obj_name.empty ())
uninstall_variable (var);
/* Free memory associated with this variable. */
unsigned int index = 0;
unsigned int i = 1;
- for (chp = var->obj_name; *chp; chp++)
+ for (chp = var->obj_name.c_str (); *chp; chp++)
{
index = (index + (i++ * (unsigned int) *chp)) % VAROBJ_TABLE_SIZE;
}
cv = *(varobj_table + index);
- while ((cv != NULL) && (strcmp (cv->var->obj_name, var->obj_name) != 0))
+ while (cv != NULL && cv->var->obj_name != var->obj_name)
cv = cv->next;
if (cv != NULL)
unsigned int i = 1;
/* Remove varobj from hash table. */
- for (chp = var->obj_name; *chp; chp++)
+ for (chp = var->obj_name.c_str (); *chp; chp++)
{
index = (index + (i++ * (unsigned int) *chp)) % VAROBJ_TABLE_SIZE;
}
cv = *(varobj_table + index);
prev = NULL;
- while ((cv != NULL) && (strcmp (cv->var->obj_name, var->obj_name) != 0))
+ while (cv != NULL && cv->var->obj_name != var->obj_name)
{
prev = cv;
cv = cv->next;
}
if (varobjdebug)
- fprintf_unfiltered (gdb_stdlog, "Deleting %s\n", var->obj_name);
+ fprintf_unfiltered (gdb_stdlog, "Deleting %s\n", var->obj_name.c_str ());
if (cv == NULL)
{
warning
("Assertion failed: Could not find variable object \"%s\" to delete",
- var->obj_name);
+ var->obj_name.c_str ());
return;
}
{
warning (_("Assertion failed: Could not find "
"varobj \"%s\" in root list"),
- var->obj_name);
+ var->obj_name.c_str ());
return;
}
if (prer == NULL)
The created VAROBJ takes ownership of the allocated NAME. */
static struct varobj *
-create_child (struct varobj *parent, int index, char *name)
+create_child (struct varobj *parent, int index, std::string &name)
{
struct varobj_item item;
- item.name = name;
+ std::swap (item.name, name);
item.value = value_of_child (parent, index);
return create_child_with_value (parent, index, &item);
struct varobj_item *item)
{
struct varobj *child;
- char *childs_name;
child = new_variable ();
/* NAME is allocated by caller. */
- child->name = item->name;
+ std::swap (child->name, item->name);
child->index = index;
child->parent = parent;
child->root = parent->root;
if (varobj_is_anonymous_child (child))
- childs_name = xstrprintf ("%s.%d_anonymous", parent->obj_name, index);
+ child->obj_name = string_printf ("%s.%d_anonymous",
+ parent->obj_name.c_str (), index);
else
- childs_name = xstrprintf ("%s.%s", parent->obj_name, item->name);
- child->obj_name = childs_name;
+ child->obj_name = string_printf ("%s.%s",
+ parent->obj_name.c_str (),
+ child->name.c_str ());
install_variable (child);
{
struct varobj *var;
- var = XNEW (struct varobj);
- var->name = NULL;
- var->path_expr = NULL;
- var->obj_name = NULL;
+ var = new varobj ();
var->index = -1;
var->type = NULL;
var->value = NULL;
var->format = FORMAT_NATURAL;
var->root = NULL;
var->updated = 0;
- var->print_value = NULL;
var->frozen = 0;
var->not_fetched = 0;
var->dynamic = XNEW (struct varobj_dynamic);
{
struct varobj *var = new_variable ();
- var->root = XNEW (struct varobj_root);
+ var->root = new varobj_root ();
var->root->lang_ops = NULL;
var->root->exp = NULL;
var->root->valid_block = NULL;
varobj_clear_saved_item (var->dynamic);
value_free (var->value);
- /* Free the expression if this is a root variable. */
if (is_root_p (var))
- {
- xfree (var->root->exp);
- xfree (var->root);
- }
+ delete var->root;
- xfree (var->name);
- xfree (var->obj_name);
- xfree (var->print_value);
- xfree (var->path_expr);
xfree (var->dynamic);
- xfree (var);
+ delete var;
}
static void
return FORMAT_NATURAL;
}
-/* FIXME: The following should be generic for any pointer. */
-static void
-cppush (struct cpstack **pstack, char *name)
-{
- struct cpstack *s;
-
- s = XNEW (struct cpstack);
- s->name = name;
- s->next = *pstack;
- *pstack = s;
-}
-
-/* FIXME: The following should be generic for any pointer. */
-static char *
-cppop (struct cpstack **pstack)
-{
- struct cpstack *s;
- char *v;
-
- if ((*pstack)->name == NULL && (*pstack)->next == NULL)
- return NULL;
-
- s = *pstack;
- v = s->name;
- *pstack = (*pstack)->next;
- xfree (s);
-
- return v;
-}
-\f
/*
* Language-dependencies
*/
return (*var->root->lang_ops->number_of_children) (var);
}
-/* What is the expression for the root varobj VAR? Returns a malloc'd
- string. */
-static char *
+/* What is the expression for the root varobj VAR? */
+
+static std::string
name_of_variable (const struct varobj *var)
{
return (*var->root->lang_ops->name_of_variable) (var);
}
-/* What is the name of the INDEX'th child of VAR? Returns a malloc'd
- string. */
-static char *
+/* What is the name of the INDEX'th child of VAR? */
+
+static std::string
name_of_child (struct varobj *var, int index)
{
return (*var->root->lang_ops->name_of_child) (var, index);
expression fails we want to just return NULL. */
TRY
{
- new_val = evaluate_expression (var->root->exp);
+ new_val = evaluate_expression (var->root->exp.get ());
}
CATCH (except, RETURN_MASK_ERROR)
{
if (var->root->floating)
{
struct varobj *tmp_var;
- char *old_type, *new_type;
- tmp_var = varobj_create (NULL, var->name, (CORE_ADDR) 0,
+ tmp_var = varobj_create (NULL, var->name.c_str (), (CORE_ADDR) 0,
USE_SELECTED_FRAME);
if (tmp_var == NULL)
{
return NULL;
}
- old_type = varobj_get_type (var);
- new_type = varobj_get_type (tmp_var);
- if (strcmp (old_type, new_type) == 0)
+ std::string old_type = varobj_get_type (var);
+ std::string new_type = varobj_get_type (tmp_var);
+ if (old_type == new_type)
{
/* The expression presently stored inside var->root->exp
remembers the locations of local variables relatively to
button, for example). Naturally, those locations are not
correct in other frames, so update the expression. */
- struct expression *tmp_exp = var->root->exp;
+ std::swap (var->root->exp, tmp_var->root->exp);
- var->root->exp = tmp_var->root->exp;
- tmp_var->root->exp = tmp_exp;
-
- varobj_delete (tmp_var, NULL, 0);
+ varobj_delete (tmp_var, 0);
*type_changed = 0;
}
else
{
- tmp_var->obj_name = xstrdup (var->obj_name);
+ tmp_var->obj_name = var->obj_name;
tmp_var->from = var->from;
tmp_var->to = var->to;
- varobj_delete (var, NULL, 0);
+ varobj_delete (var, 0);
install_variable (tmp_var);
*var_handle = tmp_var;
var = *var_handle;
*type_changed = 1;
}
- xfree (old_type);
- xfree (new_type);
}
else
{
/* The type has mutated, so the children are no longer valid.
Just delete them, and tell our caller that the type has
changed. */
- varobj_delete (var, NULL, 1 /* only_children */);
+ varobj_delete (var, 1 /* only_children */);
var->num_children = -1;
var->to = -1;
var->from = -1;
}
/* GDB already has a command called "value_of_variable". Sigh. */
-static char *
+static std::string
my_value_of_variable (struct varobj *var, enum varobj_display_formats format)
{
if (var->root->is_valid)
return (*var->root->lang_ops->value_of_variable) (var, format);
}
else
- return NULL;
+ return std::string ();
}
void
opts->raw = 1;
}
-char *
+std::string
varobj_value_get_print_value (struct value *value,
enum varobj_display_formats format,
const struct varobj *var)
{
struct ui_file *stb;
struct cleanup *old_chain;
- char *thevalue = NULL;
struct value_print_options opts;
struct type *type = NULL;
long len = 0;
char *encoding = NULL;
- struct gdbarch *gdbarch = NULL;
/* Initialize it just to avoid a GCC false warning. */
CORE_ADDR str_addr = 0;
int string_print = 0;
if (value == NULL)
- return NULL;
+ return std::string ();
stb = mem_fileopen ();
old_chain = make_cleanup_ui_file_delete (stb);
- gdbarch = get_type_arch (value_type (value));
+ std::string thevalue;
+
#if HAVE_PYTHON
if (gdb_python_initialized)
{
string_print. Otherwise just return the extracted
string as a value. */
- char *s = python_string_to_target_string (output);
+ gdb::unique_xmalloc_ptr<char> s
+ = python_string_to_target_string (output);
if (s)
{
- char *hint;
+ struct gdbarch *gdbarch;
- hint = gdbpy_get_display_hint (value_formatter);
+ gdb::unique_xmalloc_ptr<char> hint
+ = gdbpy_get_display_hint (value_formatter);
if (hint)
{
- if (!strcmp (hint, "string"))
+ if (!strcmp (hint.get (), "string"))
string_print = 1;
- xfree (hint);
}
- len = strlen (s);
- thevalue = (char *) xmemdup (s, len + 1, len + 1);
+ thevalue = std::string (s.get ());
+ len = thevalue.size ();
+ gdbarch = get_type_arch (value_type (value));
type = builtin_type (gdbarch)->builtin_char;
- xfree (s);
if (!string_print)
{
do_cleanups (old_chain);
return thevalue;
}
-
- make_cleanup (xfree, thevalue);
}
else
gdbpy_print_stack ();
varobj_formatted_print_options (&opts, format);
/* If the THEVALUE has contents, it is a regular string. */
- if (thevalue)
- LA_PRINT_STRING (stb, type, (gdb_byte *) thevalue, len, encoding, 0, &opts);
+ if (!thevalue.empty ())
+ LA_PRINT_STRING (stb, type, (gdb_byte *) thevalue.c_str (),
+ len, encoding, 0, &opts);
else if (string_print)
/* Otherwise, if string_print is set, and it is not a regular
string, it is a lazy string. */
/* All other cases. */
common_val_print (value, stb, 0, &opts, current_language);
- thevalue = ui_file_xstrdup (stb, NULL);
+ thevalue = ui_file_as_string (stb);
do_cleanups (old_chain);
return thevalue;
/* Try to create a varobj with same expression. If we succeed
replace the old varobj, otherwise invalidate it. */
- tmp_var = varobj_create (NULL, var->name, (CORE_ADDR) 0,
+ tmp_var = varobj_create (NULL, var->name.c_str (), (CORE_ADDR) 0,
USE_CURRENT_FRAME);
if (tmp_var != NULL)
{
- tmp_var->obj_name = xstrdup (var->obj_name);
- varobj_delete (var, NULL, 0);
+ tmp_var->obj_name = var->obj_name;
+ varobj_delete (var, 0);
install_variable (tmp_var);
}
else