b811d2c292
gdb/ChangeLog: Update copyright year range in all GDB files.
523 lines
16 KiB
C
523 lines
16 KiB
C
/* Helper routines for D support in GDB.
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Copyright (C) 2014-2020 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 "symtab.h"
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#include "block.h"
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#include "language.h"
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#include "namespace.h"
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#include "d-lang.h"
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#include "gdb_obstack.h"
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#include "gdbarch.h"
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/* This returns the length of first component of NAME, which should be
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the demangled name of a D variable/function/method/etc.
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Specifically, it returns the index of the first dot forming the
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boundary of the first component: so, given 'A.foo' or 'A.B.foo'
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it returns the 1, and given 'foo', it returns 0. */
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/* The character in NAME indexed by the return value is guaranteed to
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always be either '.' or '\0'. */
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static unsigned int
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d_find_first_component (const char *name)
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{
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unsigned int index = 0;
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for (;; ++index)
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{
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if (name[index] == '.' || name[index] == '\0')
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return index;
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}
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}
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/* If NAME is the fully-qualified name of a D function/variable/method,
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this returns the length of its entire prefix: all of the modules and
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classes that make up its name. Given 'A.foo', it returns 1, given
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'A.B.foo', it returns 4, given 'foo', it returns 0. */
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static unsigned int
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d_entire_prefix_len (const char *name)
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{
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unsigned int current_len = d_find_first_component (name);
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unsigned int previous_len = 0;
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while (name[current_len] != '\0')
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{
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gdb_assert (name[current_len] == '.');
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previous_len = current_len;
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/* Skip the '.' */
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current_len++;
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current_len += d_find_first_component (name + current_len);
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}
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return previous_len;
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}
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/* Look up NAME in BLOCK's static block and in global blocks.
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If SEARCH is non-zero, search through base classes for a matching
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symbol. Other arguments are as in d_lookup_symbol_nonlocal. */
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static struct block_symbol
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d_lookup_symbol (const struct language_defn *langdef,
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const char *name, const struct block *block,
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const domain_enum domain, int search)
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{
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struct block_symbol sym;
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sym = lookup_symbol_in_static_block (name, block, domain);
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if (sym.symbol != NULL)
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return sym;
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/* If we didn't find a definition for a builtin type in the static block,
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such as "ucent" which is a specialist type, search for it now. */
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if (langdef != NULL && domain == VAR_DOMAIN)
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{
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struct gdbarch *gdbarch;
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if (block == NULL)
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gdbarch = target_gdbarch ();
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else
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gdbarch = block_gdbarch (block);
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sym.symbol
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= language_lookup_primitive_type_as_symbol (langdef, gdbarch, name);
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sym.block = NULL;
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if (sym.symbol != NULL)
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return sym;
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}
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sym = lookup_global_symbol (name, block, domain);
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if (sym.symbol != NULL)
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return sym;
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if (search)
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{
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std::string classname, nested;
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unsigned int prefix_len;
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struct block_symbol class_sym;
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/* A simple lookup failed. Check if the symbol was defined in
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a base class. */
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/* Find the name of the class and the name of the method,
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variable, etc. */
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prefix_len = d_entire_prefix_len (name);
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/* If no prefix was found, search "this". */
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if (prefix_len == 0)
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{
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struct type *type;
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struct block_symbol lang_this;
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lang_this = lookup_language_this (language_def (language_d), block);
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if (lang_this.symbol == NULL)
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return {};
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type = check_typedef (TYPE_TARGET_TYPE (SYMBOL_TYPE (lang_this.symbol)));
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classname = TYPE_NAME (type);
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nested = name;
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}
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else
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{
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/* The class name is everything up to and including PREFIX_LEN. */
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classname = std::string (name, prefix_len);
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/* The rest of the name is everything else past the initial scope
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operator. */
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nested = std::string (name + prefix_len + 1);
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}
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/* Lookup a class named CLASSNAME. If none is found, there is nothing
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more that can be done. */
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class_sym = lookup_global_symbol (classname.c_str (), block, domain);
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if (class_sym.symbol == NULL)
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return {};
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/* Look for a symbol named NESTED in this class. */
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sym = d_lookup_nested_symbol (SYMBOL_TYPE (class_sym.symbol),
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nested.c_str (), block);
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}
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return sym;
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}
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/* Look up NAME in the D module MODULE. Other arguments are as in
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d_lookup_symbol_nonlocal. If SEARCH is non-zero, search through
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base classes for a matching symbol. */
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static struct block_symbol
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d_lookup_symbol_in_module (const char *module, const char *name,
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const struct block *block,
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const domain_enum domain, int search)
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{
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char *concatenated_name = NULL;
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if (module[0] != '\0')
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{
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concatenated_name
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= (char *) alloca (strlen (module) + strlen (name) + 2);
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strcpy (concatenated_name, module);
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strcat (concatenated_name, ".");
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strcat (concatenated_name, name);
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name = concatenated_name;
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}
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return d_lookup_symbol (NULL, name, block, domain, search);
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}
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/* Lookup NAME at module scope. SCOPE is the module that the current
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function is defined within; only consider modules whose length is at
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least SCOPE_LEN. Other arguments are as in d_lookup_symbol_nonlocal.
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For example, if we're within a function A.B.f and looking for a
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symbol x, this will get called with NAME = "x", SCOPE = "A.B", and
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SCOPE_LEN = 0. It then calls itself with NAME and SCOPE the same,
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but with SCOPE_LEN = 1. And then it calls itself with NAME and
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SCOPE the same, but with SCOPE_LEN = 4. This third call looks for
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"A.B.x"; if it doesn't find it, then the second call looks for "A.x",
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and if that call fails, then the first call looks for "x". */
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static struct block_symbol
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lookup_module_scope (const struct language_defn *langdef,
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const char *name, const struct block *block,
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const domain_enum domain, const char *scope,
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int scope_len)
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{
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char *module;
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if (scope[scope_len] != '\0')
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{
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/* Recursively search for names in child modules first. */
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struct block_symbol sym;
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int new_scope_len = scope_len;
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/* If the current scope is followed by ".", skip past that. */
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if (new_scope_len != 0)
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{
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gdb_assert (scope[new_scope_len] == '.');
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new_scope_len++;
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}
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new_scope_len += d_find_first_component (scope + new_scope_len);
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sym = lookup_module_scope (langdef, name, block, domain,
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scope, new_scope_len);
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if (sym.symbol != NULL)
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return sym;
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}
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/* Okay, we didn't find a match in our children, so look for the
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name in the current module.
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If we there is no scope and we know we have a bare symbol, then short
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circuit everything and call d_lookup_symbol directly.
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This isn't an optimization, rather it allows us to pass LANGDEF which
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is needed for primitive type lookup. */
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if (scope_len == 0 && strchr (name, '.') == NULL)
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return d_lookup_symbol (langdef, name, block, domain, 1);
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module = (char *) alloca (scope_len + 1);
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strncpy (module, scope, scope_len);
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module[scope_len] = '\0';
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return d_lookup_symbol_in_module (module, name,
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block, domain, 1);
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}
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/* Search through the base classes of PARENT_TYPE for a symbol named
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NAME in block BLOCK. */
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static struct block_symbol
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find_symbol_in_baseclass (struct type *parent_type, const char *name,
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const struct block *block)
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{
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struct block_symbol sym = {};
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int i;
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for (i = 0; i < TYPE_N_BASECLASSES (parent_type); ++i)
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{
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struct type *base_type = TYPE_BASECLASS (parent_type, i);
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const char *base_name = TYPE_BASECLASS_NAME (parent_type, i);
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if (base_name == NULL)
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continue;
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/* Search this particular base class. */
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sym = d_lookup_symbol_in_module (base_name, name, block,
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VAR_DOMAIN, 0);
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if (sym.symbol != NULL)
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break;
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/* Now search all static file-level symbols. We have to do this for
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things like typedefs in the class. First search in this symtab,
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what we want is possibly there. */
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std::string concatenated_name = std::string (base_name) + "." + name;
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sym = lookup_symbol_in_static_block (concatenated_name.c_str (), block,
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VAR_DOMAIN);
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if (sym.symbol != NULL)
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break;
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/* Nope. We now have to search all static blocks in all objfiles,
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even if block != NULL, because there's no guarantees as to which
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symtab the symbol we want is in. */
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sym = lookup_static_symbol (concatenated_name.c_str (), VAR_DOMAIN);
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if (sym.symbol != NULL)
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break;
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/* If this class has base classes, search them next. */
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base_type = check_typedef (base_type);
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if (TYPE_N_BASECLASSES (base_type) > 0)
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{
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sym = find_symbol_in_baseclass (base_type, name, block);
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if (sym.symbol != NULL)
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break;
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}
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}
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return sym;
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}
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/* Look up a symbol named NESTED_NAME that is nested inside the D
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class or module given by PARENT_TYPE, from within the context
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given by BLOCK. Return NULL if there is no such nested type. */
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struct block_symbol
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d_lookup_nested_symbol (struct type *parent_type,
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const char *nested_name,
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const struct block *block)
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{
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/* type_name_no_tag_required provides better error reporting using the
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original type. */
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struct type *saved_parent_type = parent_type;
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parent_type = check_typedef (parent_type);
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switch (TYPE_CODE (parent_type))
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{
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case TYPE_CODE_STRUCT:
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case TYPE_CODE_UNION:
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case TYPE_CODE_ENUM:
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case TYPE_CODE_MODULE:
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{
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int size;
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const char *parent_name = type_name_or_error (saved_parent_type);
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struct block_symbol sym
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= d_lookup_symbol_in_module (parent_name, nested_name,
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block, VAR_DOMAIN, 0);
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char *concatenated_name;
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if (sym.symbol != NULL)
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return sym;
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/* Now search all static file-level symbols. We have to do this
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for things like typedefs in the class. We do not try to
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guess any imported module as even the fully specified
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module search is already not D compliant and more assumptions
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could make it too magic. */
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size = strlen (parent_name) + strlen (nested_name) + 2;
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concatenated_name = (char *) alloca (size);
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xsnprintf (concatenated_name, size, "%s.%s",
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parent_name, nested_name);
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sym = lookup_static_symbol (concatenated_name, VAR_DOMAIN);
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if (sym.symbol != NULL)
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return sym;
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/* If no matching symbols were found, try searching any
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base classes. */
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return find_symbol_in_baseclass (parent_type, nested_name, block);
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}
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case TYPE_CODE_FUNC:
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case TYPE_CODE_METHOD:
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return {};
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default:
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gdb_assert_not_reached ("called with non-aggregate type.");
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}
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}
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/* Search for NAME by applying all import statements belonging to
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BLOCK which are applicable in SCOPE. */
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static struct block_symbol
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d_lookup_symbol_imports (const char *scope, const char *name,
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const struct block *block,
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const domain_enum domain)
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{
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struct using_direct *current;
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struct block_symbol sym;
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/* First, try to find the symbol in the given module. */
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sym = d_lookup_symbol_in_module (scope, name, block, domain, 1);
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if (sym.symbol != NULL)
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return sym;
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/* Go through the using directives. If any of them add new names to
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the module we're searching in, see if we can find a match by
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applying them. */
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for (current = block_using (block);
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current != NULL;
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current = current->next)
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{
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const char **excludep;
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/* If the import destination is the current scope then search it. */
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if (!current->searched && strcmp (scope, current->import_dest) == 0)
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{
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/* Mark this import as searched so that the recursive call
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does not search it again. */
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scoped_restore restore_searched
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= make_scoped_restore (¤t->searched, 1);
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/* If there is an import of a single declaration, compare the
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imported declaration (after optional renaming by its alias)
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with the sought out name. If there is a match pass
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current->import_src as MODULE to direct the search towards
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the imported module. */
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if (current->declaration
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&& strcmp (name, current->alias
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? current->alias : current->declaration) == 0)
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sym = d_lookup_symbol_in_module (current->import_src,
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current->declaration,
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block, domain, 1);
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/* If a symbol was found or this import statement was an import
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declaration, the search of this import is complete. */
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if (sym.symbol != NULL || current->declaration)
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{
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if (sym.symbol != NULL)
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return sym;
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continue;
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}
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/* Do not follow CURRENT if NAME matches its EXCLUDES. */
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for (excludep = current->excludes; *excludep; excludep++)
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if (strcmp (name, *excludep) == 0)
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break;
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if (*excludep)
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continue;
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/* If the import statement is creating an alias. */
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if (current->alias != NULL)
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{
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if (strcmp (name, current->alias) == 0)
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{
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/* If the alias matches the sought name. Pass
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current->import_src as the NAME to direct the
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search towards the aliased module. */
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sym = lookup_module_scope (NULL, current->import_src, block,
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domain, scope, 0);
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}
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else
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{
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/* If the alias matches the first component of the
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sought name, pass current->import_src as MODULE
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to direct the search, skipping over the aliased
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component in NAME. */
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int name_scope = d_find_first_component (name);
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if (name[name_scope] != '\0'
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&& strncmp (name, current->alias, name_scope) == 0)
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{
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/* Skip the '.' */
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name_scope++;
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sym = d_lookup_symbol_in_module (current->import_src,
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name + name_scope,
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block, domain, 1);
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}
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}
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}
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else
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{
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/* If this import statement creates no alias, pass
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current->import_src as MODULE to direct the search
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towards the imported module. */
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sym = d_lookup_symbol_in_module (current->import_src,
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name, block, domain, 1);
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}
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if (sym.symbol != NULL)
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return sym;
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}
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}
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return {};
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}
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/* Searches for NAME in the current module, and by applying relevant
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import statements belonging to BLOCK and its parents. SCOPE is the
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module scope of the context in which the search is being evaluated. */
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static struct block_symbol
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d_lookup_symbol_module (const char *scope, const char *name,
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const struct block *block,
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const domain_enum domain)
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{
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struct block_symbol sym;
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/* First, try to find the symbol in the given module. */
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sym = d_lookup_symbol_in_module (scope, name,
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block, domain, 1);
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if (sym.symbol != NULL)
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return sym;
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/* Search for name in modules imported to this and parent
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blocks. */
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while (block != NULL)
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{
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sym = d_lookup_symbol_imports (scope, name, block, domain);
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if (sym.symbol != NULL)
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return sym;
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block = BLOCK_SUPERBLOCK (block);
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}
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return {};
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}
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/* The D-specific version of name lookup for static and global names
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This makes sure that names get looked for in all modules that are
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in scope. NAME is the natural name of the symbol that we're looking
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looking for, BLOCK is the block that we're searching within, DOMAIN
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says what kind of symbols we're looking for, and if SYMTAB is non-NULL,
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we should store the symtab where we found the symbol in it. */
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struct block_symbol
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d_lookup_symbol_nonlocal (const struct language_defn *langdef,
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const char *name,
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const struct block *block,
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const domain_enum domain)
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{
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struct block_symbol sym;
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const char *scope = block_scope (block);
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sym = lookup_module_scope (langdef, name, block, domain, scope, 0);
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if (sym.symbol != NULL)
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return sym;
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return d_lookup_symbol_module (scope, name, block, domain);
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}
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