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28e7fd6234
Two modifications: 1. The addition of 2013 to the copyright year range for every file; 2. The use of a single year range, instead of potentially multiple year ranges, as approved by the FSF.
889 lines
28 KiB
C
889 lines
28 KiB
C
/* varobj support for Ada.
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Copyright (C) 2012-2013 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#include "defs.h"
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#include "ada-varobj.h"
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#include "ada-lang.h"
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#include "language.h"
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#include "valprint.h"
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/* Implementation principle used in this unit:
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For our purposes, the meat of the varobj object is made of two
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elements: The varobj's (struct) value, and the varobj's (struct)
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type. In most situations, the varobj has a non-NULL value, and
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the type becomes redundant, as it can be directly derived from
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the value. In the initial implementation of this unit, most
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routines would only take a value, and return a value.
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But there are many situations where it is possible for a varobj
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to have a NULL value. For instance, if the varobj becomes out of
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scope. Or better yet, when the varobj is the child of another
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NULL pointer varobj. In that situation, we must rely on the type
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instead of the value to create the child varobj.
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That's why most functions below work with a (value, type) pair.
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The value may or may not be NULL. But the type is always expected
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to be set. When the value is NULL, then we work with the type
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alone, and keep the value NULL. But when the value is not NULL,
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then we work using the value, because it provides more information.
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But we still always set the type as well, even if that type could
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easily be derived from the value. The reason behind this is that
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it allows the code to use the type without having to worry about
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it being set or not. It makes the code clearer. */
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/* A convenience function that decodes the VALUE_PTR/TYPE_PTR couple:
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If there is a value (*VALUE_PTR not NULL), then perform the decoding
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using it, and compute the associated type from the resulting value.
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Otherwise, compute a static approximation of *TYPE_PTR, leaving
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*VALUE_PTR unchanged.
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The results are written in place. */
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static void
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ada_varobj_decode_var (struct value **value_ptr, struct type **type_ptr)
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{
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if (*value_ptr)
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{
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*value_ptr = ada_get_decoded_value (*value_ptr);
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*type_ptr = ada_check_typedef (value_type (*value_ptr));
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}
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else
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*type_ptr = ada_get_decoded_type (*type_ptr);
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}
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/* Return a string containing an image of the given scalar value.
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VAL is the numeric value, while TYPE is the value's type.
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This is useful for plain integers, of course, but even more
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so for enumerated types.
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The result should be deallocated by xfree after use. */
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static char *
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ada_varobj_scalar_image (struct type *type, LONGEST val)
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{
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struct ui_file *buf = mem_fileopen ();
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struct cleanup *cleanups = make_cleanup_ui_file_delete (buf);
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char *result;
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ada_print_scalar (type, val, buf);
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result = ui_file_xstrdup (buf, NULL);
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do_cleanups (cleanups);
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return result;
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair designates
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a struct or union, compute the (CHILD_VALUE, CHILD_TYPE) couple
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corresponding to the field number FIELDNO. */
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static void
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ada_varobj_struct_elt (struct value *parent_value,
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struct type *parent_type,
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int fieldno,
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struct value **child_value,
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struct type **child_type)
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{
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struct value *value = NULL;
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struct type *type = NULL;
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if (parent_value)
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{
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value = value_field (parent_value, fieldno);
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type = value_type (value);
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}
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else
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type = TYPE_FIELD_TYPE (parent_type, fieldno);
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if (child_value)
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*child_value = value;
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if (child_type)
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*child_type = type;
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair is a pointer or
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reference, return a (CHILD_VALUE, CHILD_TYPE) couple corresponding
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to the dereferenced value. */
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static void
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ada_varobj_ind (struct value *parent_value,
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struct type *parent_type,
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struct value **child_value,
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struct type **child_type)
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{
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struct value *value = NULL;
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struct type *type = NULL;
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if (ada_is_array_descriptor_type (parent_type))
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{
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/* This can only happen when PARENT_VALUE is NULL. Otherwise,
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ada_get_decoded_value would have transformed our parent_type
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into a simple array pointer type. */
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gdb_assert (parent_value == NULL);
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gdb_assert (TYPE_CODE (parent_type) == TYPE_CODE_TYPEDEF);
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/* Decode parent_type by the equivalent pointer to (decoded)
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array. */
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while (TYPE_CODE (parent_type) == TYPE_CODE_TYPEDEF)
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parent_type = TYPE_TARGET_TYPE (parent_type);
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parent_type = ada_coerce_to_simple_array_type (parent_type);
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parent_type = lookup_pointer_type (parent_type);
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}
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/* If parent_value is a null pointer, then only perform static
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dereferencing. We cannot dereference null pointers. */
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if (parent_value && value_as_address (parent_value) == 0)
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parent_value = NULL;
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if (parent_value)
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{
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value = ada_value_ind (parent_value);
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type = value_type (value);
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}
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else
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type = TYPE_TARGET_TYPE (parent_type);
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if (child_value)
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*child_value = value;
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if (child_type)
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*child_type = type;
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair is a simple
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array (TYPE_CODE_ARRAY), return the (CHILD_VALUE, CHILD_TYPE)
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pair corresponding to the element at ELT_INDEX. */
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static void
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ada_varobj_simple_array_elt (struct value *parent_value,
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struct type *parent_type,
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int elt_index,
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struct value **child_value,
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struct type **child_type)
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{
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struct value *value = NULL;
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struct type *type = NULL;
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if (parent_value)
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{
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struct value *index_value =
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value_from_longest (TYPE_INDEX_TYPE (parent_type), elt_index);
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value = ada_value_subscript (parent_value, 1, &index_value);
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type = value_type (value);
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}
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else
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type = TYPE_TARGET_TYPE (parent_type);
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if (child_value)
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*child_value = value;
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if (child_type)
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*child_type = type;
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}
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/* Given the decoded value and decoded type of a variable object,
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adjust the value and type to those necessary for getting children
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of the variable object.
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The replacement is performed in place. */
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static void
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ada_varobj_adjust_for_child_access (struct value **value,
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struct type **type)
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{
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/* Pointers to struct/union types are special: Instead of having
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one child (the struct), their children are the components of
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the struct/union type. We handle this situation by dereferencing
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the (value, type) couple. */
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if (TYPE_CODE (*type) == TYPE_CODE_PTR
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&& (TYPE_CODE (TYPE_TARGET_TYPE (*type)) == TYPE_CODE_STRUCT
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|| TYPE_CODE (TYPE_TARGET_TYPE (*type)) == TYPE_CODE_UNION)
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&& !ada_is_array_descriptor_type (TYPE_TARGET_TYPE (*type))
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&& !ada_is_constrained_packed_array_type (TYPE_TARGET_TYPE (*type)))
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ada_varobj_ind (*value, *type, value, type);
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair is an array
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(any type of array, "simple" or not), return the number of children
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that this array contains. */
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static int
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ada_varobj_get_array_number_of_children (struct value *parent_value,
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struct type *parent_type)
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{
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LONGEST lo, hi;
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if (!get_array_bounds (parent_type, &lo, &hi))
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{
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/* Could not get the array bounds. Pretend this is an empty array. */
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warning (_("unable to get bounds of array, assuming null array"));
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return 0;
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}
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/* Ada allows the upper bound to be less than the lower bound,
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in order to specify empty arrays... */
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if (hi < lo)
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return 0;
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return hi - lo + 1;
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair is a struct or
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union, return the number of children this struct contains. */
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static int
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ada_varobj_get_struct_number_of_children (struct value *parent_value,
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struct type *parent_type)
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{
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int n_children = 0;
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int i;
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gdb_assert (TYPE_CODE (parent_type) == TYPE_CODE_STRUCT
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|| TYPE_CODE (parent_type) == TYPE_CODE_UNION);
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for (i = 0; i < TYPE_NFIELDS (parent_type); i++)
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{
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if (ada_is_ignored_field (parent_type, i))
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continue;
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if (ada_is_wrapper_field (parent_type, i))
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{
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struct value *elt_value;
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struct type *elt_type;
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ada_varobj_struct_elt (parent_value, parent_type, i,
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&elt_value, &elt_type);
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if (ada_is_tagged_type (elt_type, 0))
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{
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/* We must not use ada_varobj_get_number_of_children
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to determine is element's number of children, because
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this function first calls ada_varobj_decode_var,
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which "fixes" the element. For tagged types, this
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includes reading the object's tag to determine its
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real type, which happens to be the parent_type, and
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leads to an infinite loop (because the element gets
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fixed back into the parent). */
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n_children += ada_varobj_get_struct_number_of_children
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(elt_value, elt_type);
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}
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else
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n_children += ada_varobj_get_number_of_children (elt_value, elt_type);
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}
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else if (ada_is_variant_part (parent_type, i))
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{
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/* In normal situations, the variant part of the record should
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have been "fixed". Or, in other words, it should have been
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replaced by the branch of the variant part that is relevant
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for our value. But there are still situations where this
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can happen, however (Eg. when our parent is a NULL pointer).
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We do not support showing this part of the record for now,
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so just pretend this field does not exist. */
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}
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else
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n_children++;
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}
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return n_children;
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}
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/* Assuming that the (PARENT_VALUE, PARENT_TYPE) pair designates
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a pointer, return the number of children this pointer has. */
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static int
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ada_varobj_get_ptr_number_of_children (struct value *parent_value,
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struct type *parent_type)
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{
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struct type *child_type = TYPE_TARGET_TYPE (parent_type);
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/* Pointer to functions and to void do not have a child, since
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you cannot print what they point to. */
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if (TYPE_CODE (child_type) == TYPE_CODE_FUNC
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|| TYPE_CODE (child_type) == TYPE_CODE_VOID)
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return 0;
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/* All other types have 1 child. */
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return 1;
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}
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/* Return the number of children for the (PARENT_VALUE, PARENT_TYPE)
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pair. */
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int
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ada_varobj_get_number_of_children (struct value *parent_value,
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struct type *parent_type)
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{
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ada_varobj_decode_var (&parent_value, &parent_type);
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ada_varobj_adjust_for_child_access (&parent_value, &parent_type);
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/* A typedef to an array descriptor in fact represents a pointer
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to an unconstrained array. These types always have one child
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(the unconstrained array). */
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if (ada_is_array_descriptor_type (parent_type)
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&& TYPE_CODE (parent_type) == TYPE_CODE_TYPEDEF)
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return 1;
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if (TYPE_CODE (parent_type) == TYPE_CODE_ARRAY)
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return ada_varobj_get_array_number_of_children (parent_value,
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parent_type);
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if (TYPE_CODE (parent_type) == TYPE_CODE_STRUCT
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|| TYPE_CODE (parent_type) == TYPE_CODE_UNION)
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return ada_varobj_get_struct_number_of_children (parent_value,
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parent_type);
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if (TYPE_CODE (parent_type) == TYPE_CODE_PTR)
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return ada_varobj_get_ptr_number_of_children (parent_value,
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parent_type);
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/* All other types have no child. */
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return 0;
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}
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/* Describe the child of the (PARENT_VALUE, PARENT_TYPE) pair
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whose index is CHILD_INDEX:
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- If CHILD_NAME is not NULL, then a copy of the child's name
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is saved in *CHILD_NAME. This copy must be deallocated
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with xfree after use.
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- If CHILD_VALUE is not NULL, then save the child's value
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in *CHILD_VALUE. Same thing for the child's type with
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CHILD_TYPE if not NULL.
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- If CHILD_PATH_EXPR is not NULL, then compute the child's
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path expression. The resulting string must be deallocated
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after use with xfree.
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Computing the child's path expression requires the PARENT_PATH_EXPR
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to be non-NULL. Otherwise, PARENT_PATH_EXPR may be null if
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CHILD_PATH_EXPR is NULL.
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PARENT_NAME is the name of the parent, and should never be NULL. */
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static void ada_varobj_describe_child (struct value *parent_value,
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struct type *parent_type,
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const char *parent_name,
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const char *parent_path_expr,
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int child_index,
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char **child_name,
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struct value **child_value,
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struct type **child_type,
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char **child_path_expr);
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/* Same as ada_varobj_describe_child, but limited to struct/union
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objects. */
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static void
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ada_varobj_describe_struct_child (struct value *parent_value,
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struct type *parent_type,
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const char *parent_name,
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const char *parent_path_expr,
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int child_index,
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char **child_name,
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struct value **child_value,
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struct type **child_type,
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char **child_path_expr)
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{
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int fieldno;
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int childno = 0;
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gdb_assert (TYPE_CODE (parent_type) == TYPE_CODE_STRUCT);
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for (fieldno = 0; fieldno < TYPE_NFIELDS (parent_type); fieldno++)
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{
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if (ada_is_ignored_field (parent_type, fieldno))
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continue;
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if (ada_is_wrapper_field (parent_type, fieldno))
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{
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struct value *elt_value;
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struct type *elt_type;
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int elt_n_children;
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ada_varobj_struct_elt (parent_value, parent_type, fieldno,
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&elt_value, &elt_type);
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if (ada_is_tagged_type (elt_type, 0))
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{
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/* Same as in ada_varobj_get_struct_number_of_children:
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For tagged types, we must be careful to not call
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ada_varobj_get_number_of_children, to prevent our
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element from being fixed back into the parent. */
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elt_n_children = ada_varobj_get_struct_number_of_children
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(elt_value, elt_type);
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}
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else
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elt_n_children =
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ada_varobj_get_number_of_children (elt_value, elt_type);
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/* Is the child we're looking for one of the children
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of this wrapper field? */
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if (child_index - childno < elt_n_children)
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{
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if (ada_is_tagged_type (elt_type, 0))
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{
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/* Same as in ada_varobj_get_struct_number_of_children:
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For tagged types, we must be careful to not call
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ada_varobj_describe_child, to prevent our element
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from being fixed back into the parent. */
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ada_varobj_describe_struct_child
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(elt_value, elt_type, parent_name, parent_path_expr,
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child_index - childno, child_name, child_value,
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child_type, child_path_expr);
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}
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else
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ada_varobj_describe_child (elt_value, elt_type,
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parent_name, parent_path_expr,
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child_index - childno,
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child_name, child_value,
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child_type, child_path_expr);
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return;
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}
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/* The child we're looking for is beyond this wrapper
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field, so skip all its children. */
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childno += elt_n_children;
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continue;
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}
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else if (ada_is_variant_part (parent_type, fieldno))
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{
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/* In normal situations, the variant part of the record should
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have been "fixed". Or, in other words, it should have been
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replaced by the branch of the variant part that is relevant
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for our value. But there are still situations where this
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can happen, however (Eg. when our parent is a NULL pointer).
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We do not support showing this part of the record for now,
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so just pretend this field does not exist. */
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continue;
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}
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if (childno == child_index)
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{
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if (child_name)
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{
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/* The name of the child is none other than the field's
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name, except that we need to strip suffixes from it.
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For instance, fields with alignment constraints will
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have an __XVA suffix added to them. */
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const char *field_name = TYPE_FIELD_NAME (parent_type, fieldno);
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int child_name_len = ada_name_prefix_len (field_name);
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*child_name = xstrprintf ("%.*s", child_name_len, field_name);
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}
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if (child_value && parent_value)
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ada_varobj_struct_elt (parent_value, parent_type, fieldno,
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child_value, NULL);
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if (child_type)
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ada_varobj_struct_elt (parent_value, parent_type, fieldno,
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NULL, child_type);
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if (child_path_expr)
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{
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/* The name of the child is none other than the field's
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name, except that we need to strip suffixes from it.
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|
For instance, fields with alignment constraints will
|
|
have an __XVA suffix added to them. */
|
|
const char *field_name = TYPE_FIELD_NAME (parent_type, fieldno);
|
|
int child_name_len = ada_name_prefix_len (field_name);
|
|
|
|
*child_path_expr =
|
|
xstrprintf ("(%s).%.*s", parent_path_expr,
|
|
child_name_len, field_name);
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
childno++;
|
|
}
|
|
|
|
/* Something went wrong. Either we miscounted the number of
|
|
children, or CHILD_INDEX was too high. But we should never
|
|
reach here. We don't have enough information to recover
|
|
nicely, so just raise an assertion failure. */
|
|
gdb_assert_not_reached ("unexpected code path");
|
|
}
|
|
|
|
/* Same as ada_varobj_describe_child, but limited to pointer objects.
|
|
|
|
Note that CHILD_INDEX is unused in this situation, but still provided
|
|
for consistency of interface with other routines describing an object's
|
|
child. */
|
|
|
|
static void
|
|
ada_varobj_describe_ptr_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name,
|
|
const char *parent_path_expr,
|
|
int child_index,
|
|
char **child_name,
|
|
struct value **child_value,
|
|
struct type **child_type,
|
|
char **child_path_expr)
|
|
{
|
|
if (child_name)
|
|
*child_name = xstrprintf ("%s.all", parent_name);
|
|
|
|
if (child_value && parent_value)
|
|
ada_varobj_ind (parent_value, parent_type, child_value, NULL);
|
|
|
|
if (child_type)
|
|
ada_varobj_ind (parent_value, parent_type, NULL, child_type);
|
|
|
|
if (child_path_expr)
|
|
*child_path_expr = xstrprintf ("(%s).all", parent_path_expr);
|
|
}
|
|
|
|
/* Same as ada_varobj_describe_child, limited to simple array objects
|
|
(TYPE_CODE_ARRAY only).
|
|
|
|
Assumes that the (PARENT_VALUE, PARENT_TYPE) pair is properly decoded.
|
|
This is done by ada_varobj_describe_child before calling us. */
|
|
|
|
static void
|
|
ada_varobj_describe_simple_array_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name,
|
|
const char *parent_path_expr,
|
|
int child_index,
|
|
char **child_name,
|
|
struct value **child_value,
|
|
struct type **child_type,
|
|
char **child_path_expr)
|
|
{
|
|
struct type *index_desc_type;
|
|
struct type *index_type;
|
|
int real_index;
|
|
|
|
gdb_assert (TYPE_CODE (parent_type) == TYPE_CODE_ARRAY);
|
|
|
|
index_desc_type = ada_find_parallel_type (parent_type, "___XA");
|
|
ada_fixup_array_indexes_type (index_desc_type);
|
|
if (index_desc_type)
|
|
index_type = TYPE_FIELD_TYPE (index_desc_type, 0);
|
|
else
|
|
index_type = TYPE_INDEX_TYPE (parent_type);
|
|
real_index = child_index + ada_discrete_type_low_bound (index_type);
|
|
|
|
if (child_name)
|
|
*child_name = ada_varobj_scalar_image (index_type, real_index);
|
|
|
|
if (child_value && parent_value)
|
|
ada_varobj_simple_array_elt (parent_value, parent_type, real_index,
|
|
child_value, NULL);
|
|
|
|
if (child_type)
|
|
ada_varobj_simple_array_elt (parent_value, parent_type, real_index,
|
|
NULL, child_type);
|
|
|
|
if (child_path_expr)
|
|
{
|
|
char *index_img = ada_varobj_scalar_image (index_type, real_index);
|
|
struct cleanup *cleanups = make_cleanup (xfree, index_img);
|
|
|
|
/* Enumeration litterals by themselves are potentially ambiguous.
|
|
For instance, consider the following package spec:
|
|
|
|
package Pck is
|
|
type Color is (Red, Green, Blue, White);
|
|
type Blood_Cells is (White, Red);
|
|
end Pck;
|
|
|
|
In this case, the litteral "red" for instance, or even
|
|
the fully-qualified litteral "pck.red" cannot be resolved
|
|
by itself. Type qualification is needed to determine which
|
|
enumeration litterals should be used.
|
|
|
|
The following variable will be used to contain the name
|
|
of the array index type when such type qualification is
|
|
needed. */
|
|
const char *index_type_name = NULL;
|
|
|
|
/* If the index type is a range type, find the base type. */
|
|
while (TYPE_CODE (index_type) == TYPE_CODE_RANGE)
|
|
index_type = TYPE_TARGET_TYPE (index_type);
|
|
|
|
if (TYPE_CODE (index_type) == TYPE_CODE_ENUM
|
|
|| TYPE_CODE (index_type) == TYPE_CODE_BOOL)
|
|
{
|
|
index_type_name = ada_type_name (index_type);
|
|
if (index_type_name)
|
|
index_type_name = ada_decode (index_type_name);
|
|
}
|
|
|
|
if (index_type_name != NULL)
|
|
*child_path_expr =
|
|
xstrprintf ("(%s)(%.*s'(%s))", parent_path_expr,
|
|
ada_name_prefix_len (index_type_name),
|
|
index_type_name, index_img);
|
|
else
|
|
*child_path_expr =
|
|
xstrprintf ("(%s)(%s)", parent_path_expr, index_img);
|
|
do_cleanups (cleanups);
|
|
}
|
|
}
|
|
|
|
/* See description at declaration above. */
|
|
|
|
static void
|
|
ada_varobj_describe_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name,
|
|
const char *parent_path_expr,
|
|
int child_index,
|
|
char **child_name,
|
|
struct value **child_value,
|
|
struct type **child_type,
|
|
char **child_path_expr)
|
|
{
|
|
/* We cannot compute the child's path expression without
|
|
the parent's path expression. This is a pre-condition
|
|
for calling this function. */
|
|
if (child_path_expr)
|
|
gdb_assert (parent_path_expr != NULL);
|
|
|
|
ada_varobj_decode_var (&parent_value, &parent_type);
|
|
ada_varobj_adjust_for_child_access (&parent_value, &parent_type);
|
|
|
|
if (child_name)
|
|
*child_name = NULL;
|
|
if (child_value)
|
|
*child_value = NULL;
|
|
if (child_type)
|
|
*child_type = NULL;
|
|
if (child_path_expr)
|
|
*child_path_expr = NULL;
|
|
|
|
if (ada_is_array_descriptor_type (parent_type)
|
|
&& TYPE_CODE (parent_type) == TYPE_CODE_TYPEDEF)
|
|
{
|
|
ada_varobj_describe_ptr_child (parent_value, parent_type,
|
|
parent_name, parent_path_expr,
|
|
child_index, child_name,
|
|
child_value, child_type,
|
|
child_path_expr);
|
|
return;
|
|
}
|
|
|
|
if (TYPE_CODE (parent_type) == TYPE_CODE_ARRAY)
|
|
{
|
|
ada_varobj_describe_simple_array_child
|
|
(parent_value, parent_type, parent_name, parent_path_expr,
|
|
child_index, child_name, child_value, child_type,
|
|
child_path_expr);
|
|
return;
|
|
}
|
|
|
|
if (TYPE_CODE (parent_type) == TYPE_CODE_STRUCT)
|
|
{
|
|
ada_varobj_describe_struct_child (parent_value, parent_type,
|
|
parent_name, parent_path_expr,
|
|
child_index, child_name,
|
|
child_value, child_type,
|
|
child_path_expr);
|
|
return;
|
|
}
|
|
|
|
if (TYPE_CODE (parent_type) == TYPE_CODE_PTR)
|
|
{
|
|
ada_varobj_describe_ptr_child (parent_value, parent_type,
|
|
parent_name, parent_path_expr,
|
|
child_index, child_name,
|
|
child_value, child_type,
|
|
child_path_expr);
|
|
return;
|
|
}
|
|
|
|
/* It should never happen. But rather than crash, report dummy names
|
|
and return a NULL child_value. */
|
|
if (child_name)
|
|
*child_name = xstrdup ("???");
|
|
}
|
|
|
|
/* Return the name of the child number CHILD_INDEX of the (PARENT_VALUE,
|
|
PARENT_TYPE) pair. PARENT_NAME is the name of the PARENT.
|
|
|
|
The result should be deallocated after use with xfree. */
|
|
|
|
char *
|
|
ada_varobj_get_name_of_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name, int child_index)
|
|
{
|
|
char *child_name;
|
|
|
|
ada_varobj_describe_child (parent_value, parent_type, parent_name,
|
|
NULL, child_index, &child_name, NULL,
|
|
NULL, NULL);
|
|
return child_name;
|
|
}
|
|
|
|
/* Return the path expression of the child number CHILD_INDEX of
|
|
the (PARENT_VALUE, PARENT_TYPE) pair. PARENT_NAME is the name
|
|
of the parent, and PARENT_PATH_EXPR is the parent's path expression.
|
|
Both must be non-NULL.
|
|
|
|
The result must be deallocated after use with xfree. */
|
|
|
|
char *
|
|
ada_varobj_get_path_expr_of_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name,
|
|
const char *parent_path_expr,
|
|
int child_index)
|
|
{
|
|
char *child_path_expr;
|
|
|
|
ada_varobj_describe_child (parent_value, parent_type, parent_name,
|
|
parent_path_expr, child_index, NULL,
|
|
NULL, NULL, &child_path_expr);
|
|
|
|
return child_path_expr;
|
|
}
|
|
|
|
/* Return the value of child number CHILD_INDEX of the (PARENT_VALUE,
|
|
PARENT_TYPE) pair. PARENT_NAME is the name of the parent. */
|
|
|
|
struct value *
|
|
ada_varobj_get_value_of_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
const char *parent_name, int child_index)
|
|
{
|
|
struct value *child_value;
|
|
|
|
ada_varobj_describe_child (parent_value, parent_type, parent_name,
|
|
NULL, child_index, NULL, &child_value,
|
|
NULL, NULL);
|
|
|
|
return child_value;
|
|
}
|
|
|
|
/* Return the type of child number CHILD_INDEX of the (PARENT_VALUE,
|
|
PARENT_TYPE) pair. */
|
|
|
|
struct type *
|
|
ada_varobj_get_type_of_child (struct value *parent_value,
|
|
struct type *parent_type,
|
|
int child_index)
|
|
{
|
|
struct type *child_type;
|
|
|
|
ada_varobj_describe_child (parent_value, parent_type, NULL, NULL,
|
|
child_index, NULL, NULL, &child_type, NULL);
|
|
|
|
return child_type;
|
|
}
|
|
|
|
/* Return a string that contains the image of the given VALUE, using
|
|
the print options OPTS as the options for formatting the result.
|
|
|
|
The resulting string must be deallocated after use with xfree. */
|
|
|
|
static char *
|
|
ada_varobj_get_value_image (struct value *value,
|
|
struct value_print_options *opts)
|
|
{
|
|
char *result;
|
|
struct ui_file *buffer;
|
|
struct cleanup *old_chain;
|
|
|
|
buffer = mem_fileopen ();
|
|
old_chain = make_cleanup_ui_file_delete (buffer);
|
|
|
|
common_val_print (value, buffer, 0, opts, current_language);
|
|
result = ui_file_xstrdup (buffer, NULL);
|
|
|
|
do_cleanups (old_chain);
|
|
return result;
|
|
}
|
|
|
|
/* Assuming that the (VALUE, TYPE) pair designates an array varobj,
|
|
return a string that is suitable for use in the "value" field of
|
|
the varobj output. Most of the time, this is the number of elements
|
|
in the array inside square brackets, but there are situations where
|
|
it's useful to add more info.
|
|
|
|
OPTS are the print options used when formatting the result.
|
|
|
|
The result should be deallocated after use using xfree. */
|
|
|
|
static char *
|
|
ada_varobj_get_value_of_array_variable (struct value *value,
|
|
struct type *type,
|
|
struct value_print_options *opts)
|
|
{
|
|
char *result;
|
|
const int numchild = ada_varobj_get_array_number_of_children (value, type);
|
|
|
|
/* If we have a string, provide its contents in the "value" field.
|
|
Otherwise, the only other way to inspect the contents of the string
|
|
is by looking at the value of each element, as in any other array,
|
|
which is not very convenient... */
|
|
if (value
|
|
&& ada_is_string_type (type)
|
|
&& (opts->format == 0 || opts->format == 's'))
|
|
{
|
|
char *str;
|
|
struct cleanup *old_chain;
|
|
|
|
str = ada_varobj_get_value_image (value, opts);
|
|
old_chain = make_cleanup (xfree, str);
|
|
result = xstrprintf ("[%d] %s", numchild, str);
|
|
do_cleanups (old_chain);
|
|
}
|
|
else
|
|
result = xstrprintf ("[%d]", numchild);
|
|
|
|
return result;
|
|
}
|
|
|
|
/* Return a string representation of the (VALUE, TYPE) pair, using
|
|
the given print options OPTS as our formatting options. */
|
|
|
|
char *
|
|
ada_varobj_get_value_of_variable (struct value *value,
|
|
struct type *type,
|
|
struct value_print_options *opts)
|
|
{
|
|
char *result = NULL;
|
|
|
|
ada_varobj_decode_var (&value, &type);
|
|
|
|
switch (TYPE_CODE (type))
|
|
{
|
|
case TYPE_CODE_STRUCT:
|
|
case TYPE_CODE_UNION:
|
|
result = xstrdup ("{...}");
|
|
break;
|
|
case TYPE_CODE_ARRAY:
|
|
result = ada_varobj_get_value_of_array_variable (value, type, opts);
|
|
break;
|
|
default:
|
|
if (!value)
|
|
result = xstrdup ("");
|
|
else
|
|
result = ada_varobj_get_value_image (value, opts);
|
|
break;
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
|