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aa09537375
Mark pointed out that my recent addrmap C++-ficiation changes caused a regression in the self-tests. This patch fixes the problem by updating this test not to allocate the mutable addrmap on an obstack.
494 lines
12 KiB
C
494 lines
12 KiB
C
/* addrmap.c --- implementation of address map data structure.
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Copyright (C) 2007-2022 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 "gdbsupport/gdb_obstack.h"
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#include "addrmap.h"
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#include "gdbsupport/selftest.h"
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/* Make sure splay trees can actually hold the values we want to
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store in them. */
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gdb_static_assert (sizeof (splay_tree_key) >= sizeof (CORE_ADDR *));
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gdb_static_assert (sizeof (splay_tree_value) >= sizeof (void *));
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/* Fixed address maps. */
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void
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addrmap_fixed::set_empty (CORE_ADDR start, CORE_ADDR end_inclusive,
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void *obj)
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{
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internal_error (__FILE__, __LINE__,
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"addrmap_fixed_set_empty: "
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"fixed addrmaps can't be changed\n");
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}
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void *
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addrmap_fixed::find (CORE_ADDR addr) const
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{
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const struct addrmap_transition *bottom = &transitions[0];
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const struct addrmap_transition *top = &transitions[num_transitions - 1];
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while (bottom < top)
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{
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/* This needs to round towards top, or else when top = bottom +
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1 (i.e., two entries are under consideration), then mid ==
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bottom, and then we may not narrow the range when (mid->addr
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< addr). */
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const addrmap_transition *mid = top - (top - bottom) / 2;
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if (mid->addr == addr)
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{
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bottom = mid;
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break;
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}
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else if (mid->addr < addr)
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/* We don't eliminate mid itself here, since each transition
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covers all subsequent addresses until the next. This is why
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we must round up in computing the midpoint. */
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bottom = mid;
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else
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top = mid - 1;
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}
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return bottom->value;
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}
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void
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addrmap_fixed::relocate (CORE_ADDR offset)
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{
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size_t i;
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for (i = 0; i < num_transitions; i++)
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transitions[i].addr += offset;
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}
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int
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addrmap_fixed::foreach (addrmap_foreach_fn fn)
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{
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size_t i;
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for (i = 0; i < num_transitions; i++)
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{
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int res = fn (transitions[i].addr, transitions[i].value);
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if (res != 0)
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return res;
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}
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return 0;
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}
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/* Mutable address maps. */
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/* Allocate a copy of CORE_ADDR. */
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splay_tree_key
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addrmap_mutable::allocate_key (CORE_ADDR addr)
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{
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CORE_ADDR *key = XNEW (CORE_ADDR);
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*key = addr;
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return (splay_tree_key) key;
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}
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/* Type-correct wrappers for splay tree access. */
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splay_tree_node
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addrmap_mutable::splay_tree_lookup (CORE_ADDR addr) const
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{
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return ::splay_tree_lookup (tree, (splay_tree_key) &addr);
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}
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splay_tree_node
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addrmap_mutable::splay_tree_predecessor (CORE_ADDR addr) const
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{
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return ::splay_tree_predecessor (tree, (splay_tree_key) &addr);
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}
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splay_tree_node
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addrmap_mutable::splay_tree_successor (CORE_ADDR addr)
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{
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return ::splay_tree_successor (tree, (splay_tree_key) &addr);
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}
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void
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addrmap_mutable::splay_tree_remove (CORE_ADDR addr)
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{
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::splay_tree_remove (tree, (splay_tree_key) &addr);
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}
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static CORE_ADDR
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addrmap_node_key (splay_tree_node node)
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{
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return * (CORE_ADDR *) node->key;
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}
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static void *
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addrmap_node_value (splay_tree_node node)
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{
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return (void *) node->value;
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}
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static void
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addrmap_node_set_value (splay_tree_node node, void *value)
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{
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node->value = (splay_tree_value) value;
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}
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void
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addrmap_mutable::splay_tree_insert (CORE_ADDR key, void *value)
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{
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::splay_tree_insert (tree,
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allocate_key (key),
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(splay_tree_value) value);
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}
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/* Without changing the mapping of any address, ensure that there is a
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tree node at ADDR, even if it would represent a "transition" from
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one value to the same value. */
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void
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addrmap_mutable::force_transition (CORE_ADDR addr)
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{
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splay_tree_node n = splay_tree_lookup (addr);
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if (! n)
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{
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n = splay_tree_predecessor (addr);
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splay_tree_insert (addr, n ? addrmap_node_value (n) : NULL);
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}
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}
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void
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addrmap_mutable::set_empty (CORE_ADDR start, CORE_ADDR end_inclusive,
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void *obj)
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{
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splay_tree_node n, next;
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void *prior_value;
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/* If we're being asked to set all empty portions of the given
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address range to empty, then probably the caller is confused.
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(If that turns out to be useful in some cases, then we can change
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this to simply return, since overriding NULL with NULL is a
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no-op.) */
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gdb_assert (obj);
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/* We take a two-pass approach, for simplicity.
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- Establish transitions where we think we might need them.
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- First pass: change all NULL regions to OBJ.
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- Second pass: remove any unnecessary transitions. */
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/* Establish transitions at the start and end. */
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force_transition (start);
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if (end_inclusive < CORE_ADDR_MAX)
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force_transition (end_inclusive + 1);
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/* Walk the area, changing all NULL regions to OBJ. */
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for (n = splay_tree_lookup (start), gdb_assert (n);
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n && addrmap_node_key (n) <= end_inclusive;
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n = splay_tree_successor (addrmap_node_key (n)))
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{
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if (! addrmap_node_value (n))
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addrmap_node_set_value (n, obj);
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}
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/* Walk the area again, removing transitions from any value to
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itself. Be sure to visit both the transitions we forced
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above. */
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n = splay_tree_predecessor (start);
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prior_value = n ? addrmap_node_value (n) : NULL;
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for (n = splay_tree_lookup (start), gdb_assert (n);
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n && (end_inclusive == CORE_ADDR_MAX
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|| addrmap_node_key (n) <= end_inclusive + 1);
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n = next)
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{
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next = splay_tree_successor (addrmap_node_key (n));
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if (addrmap_node_value (n) == prior_value)
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splay_tree_remove (addrmap_node_key (n));
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else
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prior_value = addrmap_node_value (n);
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}
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}
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void *
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addrmap_mutable::find (CORE_ADDR addr) const
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{
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splay_tree_node n = splay_tree_lookup (addr);
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if (n != nullptr)
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{
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gdb_assert (addrmap_node_key (n) == addr);
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return addrmap_node_value (n);
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}
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n = splay_tree_predecessor (addr);
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if (n != nullptr)
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{
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gdb_assert (addrmap_node_key (n) < addr);
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return addrmap_node_value (n);
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}
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return nullptr;
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}
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addrmap_fixed::addrmap_fixed (struct obstack *obstack, addrmap_mutable *mut)
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{
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size_t transition_count = 0;
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/* Count the number of transitions in the tree. */
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mut->foreach ([&] (CORE_ADDR start, void *obj)
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{
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++transition_count;
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return 0;
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});
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/* Include an extra entry for the transition at zero (which fixed
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maps have, but mutable maps do not.) */
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transition_count++;
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num_transitions = 1;
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transitions = XOBNEWVEC (obstack, struct addrmap_transition,
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transition_count);
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transitions[0].addr = 0;
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transitions[0].value = NULL;
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/* Copy all entries from the splay tree to the array, in order
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of increasing address. */
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mut->foreach ([&] (CORE_ADDR start, void *obj)
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{
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transitions[num_transitions].addr = start;
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transitions[num_transitions].value = obj;
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++num_transitions;
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return 0;
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});
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/* We should have filled the array. */
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gdb_assert (num_transitions == transition_count);
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}
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void
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addrmap_mutable::relocate (CORE_ADDR offset)
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{
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/* Not needed yet. */
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internal_error (__FILE__, __LINE__,
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_("addrmap_relocate is not implemented yet "
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"for mutable addrmaps"));
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}
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/* This is a splay_tree_foreach_fn. */
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static int
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addrmap_mutable_foreach_worker (splay_tree_node node, void *data)
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{
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addrmap_foreach_fn *fn = (addrmap_foreach_fn *) data;
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return (*fn) (addrmap_node_key (node), addrmap_node_value (node));
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}
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int
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addrmap_mutable::foreach (addrmap_foreach_fn fn)
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{
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return splay_tree_foreach (tree, addrmap_mutable_foreach_worker, &fn);
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}
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/* Compare keys as CORE_ADDR * values. */
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static int
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splay_compare_CORE_ADDR_ptr (splay_tree_key ak, splay_tree_key bk)
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{
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CORE_ADDR a = * (CORE_ADDR *) ak;
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CORE_ADDR b = * (CORE_ADDR *) bk;
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/* We can't just return a-b here, because of over/underflow. */
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if (a < b)
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return -1;
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else if (a == b)
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return 0;
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else
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return 1;
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}
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static void
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xfree_wrapper (splay_tree_key key)
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{
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xfree ((void *) key);
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}
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addrmap_mutable::addrmap_mutable ()
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: tree (splay_tree_new (splay_compare_CORE_ADDR_ptr, xfree_wrapper,
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nullptr /* no delete value */))
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{
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}
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addrmap_mutable::~addrmap_mutable ()
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{
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splay_tree_delete (tree);
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}
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/* See addrmap.h. */
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void
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addrmap_dump (struct addrmap *map, struct ui_file *outfile, void *payload)
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{
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/* True if the previously printed addrmap entry was for PAYLOAD.
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If so, we want to print the next one as well (since the next
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addrmap entry defines the end of the range). */
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bool previous_matched = false;
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auto callback = [&] (CORE_ADDR start_addr, void *obj)
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{
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QUIT;
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bool matches = payload == nullptr || payload == obj;
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const char *addr_str = nullptr;
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if (matches)
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addr_str = host_address_to_string (obj);
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else if (previous_matched)
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addr_str = "<ends here>";
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if (matches || previous_matched)
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gdb_printf (outfile, " %s%s %s\n",
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payload != nullptr ? " " : "",
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core_addr_to_string (start_addr),
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addr_str);
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previous_matched = matches;
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return 0;
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};
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map->foreach (callback);
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}
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#if GDB_SELF_TEST
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namespace selftests {
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/* Convert P to CORE_ADDR. */
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static CORE_ADDR
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core_addr (void *p)
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{
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return (CORE_ADDR)(uintptr_t)p;
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}
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/* Check that &ARRAY[LOW]..&ARRAY[HIGH] has VAL in MAP. */
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#define CHECK_ADDRMAP_FIND(MAP, ARRAY, LOW, HIGH, VAL) \
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do \
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{ \
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for (unsigned i = LOW; i <= HIGH; ++i) \
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SELF_CHECK (MAP->find (core_addr (&ARRAY[i])) == VAL); \
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} \
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while (0)
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/* Entry point for addrmap unit tests. */
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static void
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test_addrmap ()
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{
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/* We'll verify using the addresses of the elements of this array. */
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char array[20];
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/* We'll verify using these values stored into the map. */
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void *val1 = &array[1];
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void *val2 = &array[2];
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/* Create mutable addrmap. */
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auto_obstack temp_obstack;
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std::unique_ptr<struct addrmap_mutable> map (new addrmap_mutable);
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SELF_CHECK (map != nullptr);
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/* Check initial state. */
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CHECK_ADDRMAP_FIND (map, array, 0, 19, nullptr);
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/* Insert address range into mutable addrmap. */
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map->set_empty (core_addr (&array[10]), core_addr (&array[12]), val1);
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CHECK_ADDRMAP_FIND (map, array, 0, 9, nullptr);
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CHECK_ADDRMAP_FIND (map, array, 10, 12, val1);
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CHECK_ADDRMAP_FIND (map, array, 13, 19, nullptr);
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/* Create corresponding fixed addrmap. */
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struct addrmap *map2
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= new (&temp_obstack) addrmap_fixed (&temp_obstack, map.get ());
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SELF_CHECK (map2 != nullptr);
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CHECK_ADDRMAP_FIND (map2, array, 0, 9, nullptr);
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CHECK_ADDRMAP_FIND (map2, array, 10, 12, val1);
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CHECK_ADDRMAP_FIND (map2, array, 13, 19, nullptr);
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/* Iterate over both addrmaps. */
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auto callback = [&] (CORE_ADDR start_addr, void *obj)
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{
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if (start_addr == core_addr (nullptr))
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SELF_CHECK (obj == nullptr);
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else if (start_addr == core_addr (&array[10]))
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SELF_CHECK (obj == val1);
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else if (start_addr == core_addr (&array[13]))
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SELF_CHECK (obj == nullptr);
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else
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SELF_CHECK (false);
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return 0;
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};
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SELF_CHECK (map->foreach (callback) == 0);
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SELF_CHECK (map2->foreach (callback) == 0);
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/* Relocate fixed addrmap. */
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map2->relocate (1);
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CHECK_ADDRMAP_FIND (map2, array, 0, 10, nullptr);
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CHECK_ADDRMAP_FIND (map2, array, 11, 13, val1);
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CHECK_ADDRMAP_FIND (map2, array, 14, 19, nullptr);
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/* Insert partially overlapping address range into mutable addrmap. */
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map->set_empty (core_addr (&array[11]), core_addr (&array[13]), val2);
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CHECK_ADDRMAP_FIND (map, array, 0, 9, nullptr);
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CHECK_ADDRMAP_FIND (map, array, 10, 12, val1);
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CHECK_ADDRMAP_FIND (map, array, 13, 13, val2);
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CHECK_ADDRMAP_FIND (map, array, 14, 19, nullptr);
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}
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} // namespace selftests
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#endif /* GDB_SELF_TEST */
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void _initialize_addrmap ();
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void
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_initialize_addrmap ()
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{
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#if GDB_SELF_TEST
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selftests::register_test ("addrmap", selftests::test_addrmap);
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#endif /* GDB_SELF_TEST */
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}
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