1051 lines
45 KiB
C
1051 lines
45 KiB
C
/* Interface between GCC C++ FE and GDB -*- c -*-
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Copyright (C) 2014-2022 Free Software Foundation, Inc.
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This file is part of GCC.
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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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/* Push namespace NAME as the current binding level, to which
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newly-introduced decls will be bound. An empty string identifies
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the global namespace, whereas NULL identifies an anonymous
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namespace. A namespace named NAME is created in the current scope,
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if needed.
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If the newly-created namespace is to be an inline namespace, see
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make_namespace_inline. */
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GCC_METHOD1 (int /* bool */, push_namespace,
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const char *) /* Argument NAME. */
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/* Push TYPE as the current binding level, making its members visible
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for name lookup. The current scope before the call must be the
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scope in which the class was declared. This should be used if the
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definition of a class is already finished, but one wishes to define
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a nested class, or to enter the scope of one of its member
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functions. */
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GCC_METHOD1 (int /* bool */, push_class,
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gcc_type) /* Argument TYPE. */
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/* Push FUNCTION_DECL as the current (empty) binding level (see
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reactivate_decl). The current enclosing scope before the call must
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be the scope in which the function was declared. */
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GCC_METHOD1 (int /* bool */, push_function,
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gcc_decl) /* Argument FUNCTION_DECL. */
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/* Make DECL visible (again?) within SCOPE. When SCOPE is NULL, it
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means the current scope; if it is not NULL, it must name a function
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that is currently active, even if not at the top of the binding
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chain.
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This function can be used to make e.g. a global function or
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variable visible in a namespace or local scope (overriding another
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enclosing definition of the same name), but its most common
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expected use of this primitive, that gives it its name, is to make
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declarations visible again after reentering a function scope,
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because when a function is entered with push_function, that does
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NOT make any of the declarations nested in it visible for name
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lookup.
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There is a reason/excuse for that: unlike namespaces and classes,
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G++ doesn't ever have to reenter function scopes, so its name
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resolution infrastructure is not prepared to do that. But wait,
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there is also a good use for this apparent limitation: a function
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may contain multiple scopes (blocks), and the name may be bound to
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different symbols in each of these scopes. With this interface, as
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we reenter a function scope, we may choose which symbols to make
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visible for the code snippet, or, if there could be template
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functions in local scopes, for unresolved names in nested template
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class default arguments, or in nested template function signatures.
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As for making a local declaration visible for the code snippet,
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there are two possibilities: a) introduce it upfront, while
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entering the scope for the user expression (see the enter_scope
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callback, called by g++ when encountering the push_user_expression
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pragma), which might save some scope switching and reactivate_decl
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(though this can't be helped if some declarations have to be
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introduced and discarded, because of multiple definitions of the
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same name in different scopes within a function: they have to be
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defined in discriminator order); or b) introduce it when its name
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is looked up, entering the scope, introducing the declaration,
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leaving the scope, and then reactivating the declaration in its
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local scope.
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Here's some more detail on how reactivate_decl works. Say there's
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a function foo whose body looks like this:
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{
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{
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// point 1
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class c {} o __attribute__ ((__used__)); // c , o
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}
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struct c {
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void f() {
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// point 2
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}
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} o __attribute__ ((__used__)); // c_0, o_0
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{
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class c {} p __attribute__ ((__used__)); // c_1, p
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// point 3
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o.f();
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}
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}
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When we are about to define class c at point 1, we enter the
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function foo scope, and since no symbols are visible at point 1, we
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proceed to declare class c. We may then define the class right
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away, or, if we leave the function scope, and we later wish to
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define it, or to define object o, we can reenter the scope and just
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use the previously-obtained gcc_decl to define the class, without
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having to reactivate the declaration.
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Now, if we are to set up the binding context for point 2, we have
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to define c_0::f, and in order to do so, we have to declare and
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define c_0. Before we can declare c_0, we MUST at least declare c.
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As a general rule, before we can declare or define any local name
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with a discriminator, we have to at least declare any other
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occurrences of the same name in the same enclosing entity with
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lower or absent discriminator.
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So, we declare c, then we leave the function scope and reenter it
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so as to declare c_0 (also with name "c", which is why we have to
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leave and reenter the function scope, otherwise we would get an
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error because of the duplicate definition; g++ will assign a
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discriminator because it still remembers there was an earlier
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declaration of c_0 within the function, it's just no longer in
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scope), then we can define c_0, including its member function f.
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Likewise, if we wish to define o_0, we have to define o first. If
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we wish to declare (and maybe then define) c_1, we have to at least
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declare (c and then) c_0 first.
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Then, as we set up the binding context to compile a code snippet at
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point 3, we may choose to activate c_1, o_0 and p upfront,
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declaring and discarding c, c_0 and o, and then reentering the
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funciton scope to declare c_1, o_0 and p; or we can wait for oracle
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lookups of c, o or p. If c is looked up, and the debugger resolves
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c in the scope to c_1, it is expected to enter the function scope
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from the top level, declare c, leave it, reenter it, declare c_0,
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leave it, reenter it, declare c_1, leave it, and then reactivate
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c_1 in the function scope. If c_1 is needed as a complete type,
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the definition may be given right after the declaration, or the
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scope will have to be reentered in order to define the class.
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. If the code snippet is at point 2, we don't need to (re)activate
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any declaration: nothing from any local scope is visible. Just
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entering the scope of the class containing member function f
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reactivates the names of its members, including the class name
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itself. */
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GCC_METHOD2 (int /* bool */, reactivate_decl,
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gcc_decl, /* Argument DECL. */
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gcc_decl) /* Argument SCOPE. */
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/* Pop the namespace last entered with push_namespace, or class last
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entered with push_class, or function last entered with
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push_function, restoring the binding level in effect before the
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matching push_* call. */
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GCC_METHOD0 (int /* bool */, pop_binding_level)
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/* Return the NAMESPACE_DECL, TYPE_DECL or FUNCTION_DECL of the
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binding level that would be popped by pop_scope. */
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GCC_METHOD0 (gcc_decl, get_current_binding_level_decl)
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/* Make the current binding level an inline namespace. It must be a
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namespace to begin with. It is safe to call this more than once
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for the same namespace, but after the first call, subsequent ones
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will not return a success status. */
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GCC_METHOD0 (int /* bool */, make_namespace_inline)
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/* Add USED_NS to the namespaces used by the current binding level.
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Use get_current_binding_level_decl to obtain USED_NS's
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gcc_decl. */
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GCC_METHOD1 (int /* bool */, add_using_namespace,
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gcc_decl) /* Argument USED_NS. */
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/* Introduce a namespace alias declaration, as in:
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namespace foo = [... ::] bar;
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After this call, namespace TARGET will be visible as ALIAS within
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the current namespace. Get the declaration for TARGET by calling
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get_current_binding_level_decl after pushing into it. */
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GCC_METHOD2 (int /* bool */, add_namespace_alias,
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const char *, /* Argument ALIAS. */
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gcc_decl) /* Argument TARGET. */
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/* Introduce a using declaration, as in:
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using foo::bar;
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The TARGET decl names the qualifying scope (foo:: above) and the
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identifier (bar), but that does not mean that only TARGET will be
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brought into the current scope: all bindings of TARGET's identifier
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in the qualifying scope will be brought in.
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FLAGS should specify GCC_CP_SYMBOL_USING. If the current scope is
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a class scope, visibility flags must be supplied.
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Even when TARGET is template dependent, we don't need to specify
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whether or not it is a typename: the supplied declaration (that
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could be a template-dependent type converted to declaration by
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get_type_decl) indicates so. */
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GCC_METHOD2 (int /* bool */, add_using_decl,
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enum gcc_cp_symbol_kind, /* Argument FLAGS. */
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gcc_decl) /* Argument TARGET. */
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/* Create a new "decl" in GCC, and bind it in the current binding
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level. A decl is a declaration, basically a kind of symbol.
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NAME is the name of the new symbol. SYM_KIND is the kind of
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symbol being requested. SYM_TYPE is the new symbol's C++ type;
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except for labels, where this is not meaningful and should be
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zero. If SUBSTITUTION_NAME is not NULL, then a reference to this
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decl in the source will later be substituted with a dereference
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of a variable of the given name. Otherwise, for symbols having
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an address (e.g., functions), ADDRESS is the address. FILENAME
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and LINE_NUMBER refer to the symbol's source location. If this
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is not known, FILENAME can be NULL and LINE_NUMBER can be 0.
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This function returns the new decl.
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Use this function to register typedefs, functions and variables to
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namespace and local binding levels, and typedefs, member functions
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(static or not), and static data members to class binding levels.
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Class members must have their access controls specified with
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GCC_CP_ACCESS_* flags in SYM_KIND.
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Note that, since access controls are disabled, we have no means to
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express private, protected and public.
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There are various flags that can be set in SYM_KIND to specify
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additional semantics. Look for GCC_CP_FLAGs in the definition of
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enum gcc_cp_symbol_kind in gcc-cp-interface.h.
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In order to define member functions, pass GCC_CP_SYMBOL_FUNCTION in
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SYM_KIND, and a function_type for static member functions or a
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method type for non-static member functions, including constructors
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and destructors. Use build_function_type to create a function
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type; for a method type, start by creating a function type without
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any compiler-introduced artificial arguments (the implicit this
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pointer, and the __in_chrg added to constructors and destructors,
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and __vtt_parm added to the former), and then use build_method_type
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to create the method type out of the class type and the function
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type.
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For operator functions, set GCC_CP_FLAG_SPECIAL_FUNCTION in
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SYM_KIND, in addition to any other applicable flags, and pass as
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NAME a string starting with the two-character mangling for operator
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name: "ps" for unary plus, "mL" for multiply and assign, *=; etc.
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Use "cv" for type converstion operators (the target type portion
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may be omitted, as it is taken from the return type in SYM_TYPE).
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For operator"", use "li" followed by the identifier (the mangled
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name mandates digits specifying the length of the identifier; if
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present, they determine the end of the identifier, otherwise, the
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identifier extents to the end of the string, so that "li3_Kme" and
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"li_Km" are equivalent).
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Constructors and destructors need special care, because for each
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constructor and destructor there may be multiple clones defined
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internally by the compiler. With build_decl, you can introduce the
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base declaration of a constructor or a destructor, setting
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GCC_CP_FLAG_SPECIAL_FUNCTION the flag and using names starting with
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capital "C" or "D", respectively, followed by a digit (see below),
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a blank, or NUL ('\0'). DO NOT supply an ADDRESS or a
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SUBSTITUTION_NAME to build_decl, it would be meaningless (and
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rejected) for the base declaration; use define_cdtor_clone to
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introduce the address of each clone. For constructor templates,
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declare the template with build_decl, and then, for each
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specialization, introduce it with
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build_function_template_specialization, and then define the
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addresses of each of its clones with define_cdtor_clone.
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NAMEs for GCC_CP_FLAG_SPECIAL_FUNCTION:
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NAME meaning
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C? constructor base declaration (? may be 1, 2, 4, blank or NUL)
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D? destructor base declaration (? may be 0, 1, 2, 4, blank or NUL)
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nw operator new
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na operator new[]
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dl operator delete
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da operator delete[]
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ps operator + (unary)
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ng operator - (unary)
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ad operator & (unary)
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de operator * (unary)
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co operator ~
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pl operator +
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mi operator -
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ml operator *
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dv operator /
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rm operator %
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an operator &
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or operator |
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eo operator ^
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aS operator =
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pL operator +=
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mI operator -=
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mL operator *=
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dV operator /=
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rM operator %=
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aN operator &=
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oR operator |=
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eO operator ^=
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ls operator <<
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rs operator >>
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lS operator <<=
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rS operator >>=
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eq operator ==
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ne operator !=
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lt operator <
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gt operator >
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le operator <=
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ge operator >=
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nt operator !
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aa operator &&
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oo operator ||
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pp operator ++
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mm operator --
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cm operator ,
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pm operator ->*
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pt operator ->
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cl operator ()
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ix operator []
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qu operator ?
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cv operator <T> (conversion operator)
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li<id> operator "" <id>
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FIXME: How about attributes? */
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GCC_METHOD7 (gcc_decl, build_decl,
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const char *, /* Argument NAME. */
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enum gcc_cp_symbol_kind, /* Argument SYM_KIND. */
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gcc_type, /* Argument SYM_TYPE. */
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const char *, /* Argument SUBSTITUTION_NAME. */
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gcc_address, /* Argument ADDRESS. */
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const char *, /* Argument FILENAME. */
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unsigned int) /* Argument LINE_NUMBER. */
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/* Supply the ADDRESS of one of the multiple clones of constructor or
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destructor CDTOR. The clone is specified by NAME, using the
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following name mangling conventions:
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C1 in-charge constructor
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C2 not-in-charge constructor
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C4 unified constructor
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D0 deleting destructor
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D1 in-charge destructor
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D2 not-in-charge destructor
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D4 unified destructor
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The following information is not necessary to use the API.
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C1 initializes an instance of the class (rather than of derived
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classes), including virtual base classes, whereas C2 initializes a
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sub-object (of the given class type) of an instance of some derived
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class (or a full object that doesn't have any virtual base
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classes).
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D0 and D1 destruct an instance of the class, including virtual base
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classes, but only the former calls operator delete to release the
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object's storage at the end; D2 destructs a sub-object (of the
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given class type) of an instance of a derived class (or a full
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object that doesn't have any virtual base classes).
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The [CD]4 manglings (and symbol definitions) are non-standard, but
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GCC uses them in some cases: rather than assuming they are
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in-charge or not-in-charge, they test the implicit argument that
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the others ignore to tell how to behave. These are used instead of
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cloning when we just can't use aliases. */
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GCC_METHOD3 (gcc_decl, define_cdtor_clone,
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const char *, /* Argument NAME. */
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gcc_decl, /* Argument CDTOR. */
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gcc_address) /* Argument ADDRESS. */
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/* Return the type associated with the given declaration. This is
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most useful to obtain the type associated with a forward-declared
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class, because it is the gcc_type, rather than the gcc_decl, that
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has to be used to build other types, but build_decl returns a
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gcc_decl rather than a gcc_type. This call can in theory be used
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to obtain the type from any other declaration; it is supposed to
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return the same type that was supplied when the declaration was
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created. */
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GCC_METHOD1 (gcc_type, get_decl_type,
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gcc_decl) /* Argument DECL. */
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/* Return the declaration for a type. */
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GCC_METHOD1 (gcc_decl, get_type_decl,
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gcc_type) /* Argument TYPE. */
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/* Declare DECL as a friend of the current class scope, if TYPE is
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NULL, or of TYPE itself otherwise. DECL may be a function or a
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class, be they template generics, template specializations or not
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templates. TYPE must be a class type (not a template generic).
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The add_friend call cannot introduce a declaration; even if the
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friend is first declared as a friend in the source code, the
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declaration belongs in the enclosing namespace, so it must be
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introduced in that namespace, and the resulting declaration can
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then be made a friend.
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DECL cannot, however, be a member of a template class generic,
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because we have no means to introduce their declarations. This
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interface has no notion of definitions for template generics. As a
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consequence, users of this interface must introduce each friend
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template member specialization separately, i.e., instead of:
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template <typename T> friend struct X<T>::M;
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they must be declared as if they were:
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friend struct X<onetype>::M;
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friend struct X<anothertype>::M;
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... for each specialization of X.
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Specializations of a template can have each others' members as
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friends:
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template <typename T> class foo {
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int f();
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template <typename U> friend int foo<U>::f();
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};
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It wouldn't always be possible to define all specializations of a
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template class before introducing the friend declarations in their
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expanded, per-specialization form.
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In order to simplify such friend declarations, and to enable
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incremental friend declarations as template specializations are
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introduced, add_friend can be called after the befriending class is
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fully defined, passing it a non-NULL TYPE argument naming the
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befriending class type. */
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GCC_METHOD2 (int /* bool */, add_friend,
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gcc_decl, /* Argument DECL. */
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gcc_type) /* Argument TYPE. */
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/* Return the type of a pointer to a given base type. */
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GCC_METHOD1 (gcc_type, build_pointer_type,
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gcc_type) /* Argument BASE_TYPE. */
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/* Return the type of a reference to a given base type. */
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GCC_METHOD2 (gcc_type, build_reference_type,
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gcc_type, /* Argument BASE_TYPE. */
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enum gcc_cp_ref_qualifiers) /* Argument RQUALS. */
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/* Create a new pointer-to-member type. MEMBER_TYPE is the data
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member type, while CLASS_TYPE is the class type containing the data
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member. For pointers to member functions, MEMBER_TYPE must be a
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method type, and CLASS_TYPE must be specified even though it might
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be possible to extract it from the method type. */
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GCC_METHOD2 (gcc_type, build_pointer_to_member_type,
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gcc_type, /* Argument CLASS_TYPE. */
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gcc_type) /* Argument MEMBER_TYPE. */
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/* Start a template parameter list scope and enters it, so that
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subsequent build_type_template_parameter and
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build_value_template_parameter calls create template parameters in
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the list. The list is closed by a build_decl call with
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GCC_CP_SYMBOL_FUNCTION or GCC_CP_SYMBOL_CLASS, that, when the scope
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is a template parameter list, declares a template function or a
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template class with the then-closed parameter list. The scope in
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which the new declaration is to be introduced by build_decl must be
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entered before calling start_template_decl, and build_decl returns
|
|
to that scope, from the template parameter list scope, before
|
|
introducing the declaration. */
|
|
|
|
GCC_METHOD0 (int /* bool */, start_template_decl)
|
|
|
|
/* Build a typename template-parameter (e.g., the T in template
|
|
<typename T = X>). Either PACK_P should be nonzero, to indicate an
|
|
argument pack (the last argument in a variadic template argument
|
|
list, as in template <typename... T>), or DEFAULT_TYPE may be
|
|
non-NULL to set the default type argument (e.g. X) for the template
|
|
parameter. FILENAME and LINE_NUMBER may specify the source
|
|
location in which the template parameter was declared. */
|
|
|
|
GCC_METHOD5 (gcc_type, build_type_template_parameter,
|
|
const char *, /* Argument ID. */
|
|
int /* bool */, /* Argument PACK_P. */
|
|
gcc_type, /* Argument DEFAULT_TYPE. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Build a template template-parameter (e.g., the T in template
|
|
<template <[...]> class T = X>). DEFAULT_TEMPL may be non-NULL to
|
|
set the default type-template argument (e.g. X) for the template
|
|
template parameter. FILENAME and LINE_NUMBER may specify the
|
|
source location in which the template parameter was declared. */
|
|
|
|
GCC_METHOD5 (gcc_utempl, build_template_template_parameter,
|
|
const char *, /* Argument ID. */
|
|
int /* bool */, /* Argument PACK_P. */
|
|
gcc_utempl, /* Argument DEFAULT_TEMPL. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Build a value template-parameter (e.g., the V in template <typename
|
|
T, T V> or in template <int V = X>). DEFAULT_VALUE may be non-NULL
|
|
to set the default value argument for the template parameter (e.g.,
|
|
X). FILENAME and LINE_NUMBER may specify the source location in
|
|
which the template parameter was declared. */
|
|
|
|
GCC_METHOD5 (gcc_decl, build_value_template_parameter,
|
|
gcc_type, /* Argument TYPE. */
|
|
const char *, /* Argument ID. */
|
|
gcc_expr, /* Argument DEFAULT_VALUE. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Build a template-dependent typename (e.g., typename T::bar or
|
|
typename T::template bart<X>). ENCLOSING_TYPE should be the
|
|
template-dependent nested name specifier (e.g., T), ID should be
|
|
the name of the member of the ENCLOSING_TYPE (e.g., bar or bart),
|
|
and TARGS should be non-NULL and specify the template arguments
|
|
(e.g. <X>) iff ID is to name a class template.
|
|
|
|
In this and other calls, a template-dependent nested name specifier
|
|
may be a template class parameter (build_type_template_parameter),
|
|
a specialization (returned by build_dependent_type_template_id) of
|
|
a template template parameter (returned by
|
|
build_template_template_parameter) or a member type thereof
|
|
(returned by build_dependent_typename itself). */
|
|
|
|
GCC_METHOD3 (gcc_type, build_dependent_typename,
|
|
gcc_type, /* Argument ENCLOSING_TYPE. */
|
|
const char *, /* Argument ID. */
|
|
const struct gcc_cp_template_args *) /* Argument TARGS. */
|
|
|
|
/* Build a template-dependent class template (e.g., T::template bart).
|
|
ENCLOSING_TYPE should be the template-dependent nested name
|
|
specifier (e.g., T), ID should be the name of the class template
|
|
member of the ENCLOSING_TYPE (e.g., bart). */
|
|
|
|
GCC_METHOD2 (gcc_utempl, build_dependent_class_template,
|
|
gcc_type, /* Argument ENCLOSING_TYPE. */
|
|
const char *) /* Argument ID. */
|
|
|
|
/* Build a template-dependent type template-id (e.g., T<A>).
|
|
TEMPLATE_DECL should be a template template parameter (e.g., the T
|
|
in template <template <[...]> class T = X>), and TARGS should
|
|
specify the template arguments (e.g. <A>). */
|
|
|
|
GCC_METHOD2 (gcc_type, build_dependent_type_template_id,
|
|
gcc_utempl, /* Argument TEMPLATE_DECL. */
|
|
const struct gcc_cp_template_args *) /* Argument TARGS. */
|
|
|
|
/* Build a template-dependent expression (e.g., S::val or S::template
|
|
mtf<X>, or unqualified f or template tf<X>).
|
|
|
|
ENCLOSING_SCOPE should be a template-dependent nested name
|
|
specifier (e.g., T), a resolved namespace or class decl, or NULL
|
|
for unqualified names; ID should be the name of the member of the
|
|
ENCLOSING_SCOPE (e.g., val or mtf) or unqualified overloaded
|
|
function; and TARGS should list template arguments (e.g. <X>) when
|
|
mtf or tf are to name a template function, or be NULL otherwise.
|
|
|
|
Unqualified names and namespace- or class-qualified names can only
|
|
resolve to overloaded functions, to be used in contexts that
|
|
involve overload resolution that cannot be resolved because of
|
|
template-dependent argument or return types, such as call
|
|
expressions with template-dependent arguments, conversion
|
|
expressions to function types with template-dependent argument
|
|
types or the like. Other cases of unqualified or
|
|
non-template-dependent-qualified names should NOT use this
|
|
function, and use decl_expr to convert the appropriate function or
|
|
object declaration to an expression.
|
|
|
|
If ID is the name of a special member function, FLAGS should be
|
|
GCC_CP_SYMBOL_FUNCTION|GCC_CP_FLAG_SPECIAL_FUNCTION, and ID should
|
|
be one of the encodings for special member functions documented in
|
|
build_decl. Otherwise, FLAGS should be GCC_CP_SYMBOL_MASK, which
|
|
suggests the symbol kind is not known (though we know it is not a
|
|
type).
|
|
|
|
If ID denotes a conversion operator, CONV_TYPE should name the
|
|
target type of the conversion. Otherwise, CONV_TYPE must be
|
|
NULL. */
|
|
|
|
GCC_METHOD5 (gcc_expr, build_dependent_expr,
|
|
gcc_decl, /* Argument ENCLOSING_SCOPE. */
|
|
enum gcc_cp_symbol_kind, /* Argument FLAGS. */
|
|
const char *, /* Argument NAME. */
|
|
gcc_type, /* Argument CONV_TYPE. */
|
|
const struct gcc_cp_template_args *) /* Argument TARGS. */
|
|
|
|
/* Build a gcc_expr for the value VALUE in type TYPE. */
|
|
|
|
GCC_METHOD2 (gcc_expr, build_literal_expr,
|
|
gcc_type, /* Argument TYPE. */
|
|
unsigned long) /* Argument VALUE. */
|
|
|
|
/* Build a gcc_expr that denotes DECL, the declaration of a variable
|
|
or function in namespace scope, or of a static member variable or
|
|
function. Use QUALIFIED_P to build the operand of unary & so as to
|
|
compute a pointer-to-member, rather than a regular pointer. */
|
|
|
|
GCC_METHOD2 (gcc_expr, build_decl_expr,
|
|
gcc_decl, /* Argument DECL. */
|
|
int /* bool */) /* Argument QUALIFIED_P. */
|
|
|
|
/* Build a gcc_expr that denotes the unary operation UNARY_OP applied
|
|
to the gcc_expr OPERAND. For non-expr operands, see
|
|
unary_type_expr. Besides the UNARY_OP encodings used for operator
|
|
names, we support "pp_" for preincrement, and "mm_" for
|
|
predecrement, "nx" for noexcept, "tw" for throw, "tr" for rethrow
|
|
(pass NULL as the operand), "te" for typeid, "sz" for sizeof, "az"
|
|
for alignof, "dl" for delete, "gsdl" for ::delete, "da" for
|
|
delete[], "gsda" for ::delete[], "sp" for pack expansion, "sZ" for
|
|
sizeof...(function argument pack). */
|
|
|
|
GCC_METHOD2 (gcc_expr, build_unary_expr,
|
|
const char *, /* Argument UNARY_OP. */
|
|
gcc_expr) /* Argument OPERAND. */
|
|
|
|
/* Build a gcc_expr that denotes the binary operation BINARY_OP
|
|
applied to gcc_exprs OPERAND1 and OPERAND2. Besides the BINARY_OP
|
|
encodings used for operator names, we support "ds" for the operator
|
|
token ".*" and "dt" for the operator token ".". When using
|
|
operators that take a name as their second operand ("." and "->")
|
|
use decl_expr to convert the gcc_decl of the member name to a
|
|
gcc_expr, if the member name wasn't created with
|
|
e.g. build_dependent_expr. */
|
|
|
|
GCC_METHOD3 (gcc_expr, build_binary_expr,
|
|
const char *, /* Argument BINARY_OP. */
|
|
gcc_expr, /* Argument OPERAND1. */
|
|
gcc_expr) /* Argument OPERAND2. */
|
|
|
|
/* Build a gcc_expr that denotes the ternary operation TERNARY_OP
|
|
applied to gcc_exprs OPERAND1, OPERAND2 and OPERAND3. The only
|
|
supported TERNARY_OP is "qu", for the "?:" operator. */
|
|
|
|
GCC_METHOD4 (gcc_expr, build_ternary_expr,
|
|
const char *, /* Argument TERNARY_OP. */
|
|
gcc_expr, /* Argument OPERAND1. */
|
|
gcc_expr, /* Argument OPERAND2. */
|
|
gcc_expr) /* Argument OPERAND3. */
|
|
|
|
/* Build a gcc_expr that denotes the unary operation UNARY_OP applied
|
|
to the gcc_type OPERAND. Supported unary operations taking types
|
|
are "ti" for typeid, "st" for sizeof, "at" for alignof, and "sZ"
|
|
for sizeof...(template argument pack). */
|
|
|
|
GCC_METHOD2 (gcc_expr, build_unary_type_expr,
|
|
const char *, /* Argument UNARY_OP. */
|
|
gcc_type) /* Argument OPERAND. */
|
|
|
|
/* Build a gcc_expr that denotes the binary operation BINARY_OP
|
|
applied to gcc_type OPERAND1 and gcc_expr OPERAND2. Use this for
|
|
all kinds of (single-argument) type casts ("dc", "sc", "cc", "rc"
|
|
for dynamic, static, const and reinterpret casts, respectively;
|
|
"cv" for functional or C-style casts). */
|
|
|
|
GCC_METHOD3 (gcc_expr, build_cast_expr,
|
|
const char *, /* Argument BINARY_OP. */
|
|
gcc_type, /* Argument OPERAND1. */
|
|
gcc_expr) /* Argument OPERAND2. */
|
|
|
|
/* Build a gcc_expr that denotes the conversion of an expression list
|
|
VALUES to TYPE, with ("tl") or without ("cv") braces, or a braced
|
|
initializer list of unspecified type (e.g., a component of another
|
|
braced initializer list; pass "il" for CONV_OP, and NULL for
|
|
TYPE). */
|
|
|
|
GCC_METHOD3 (gcc_expr, build_expression_list_expr,
|
|
const char *, /* Argument CONV_OP. */
|
|
gcc_type, /* Argument TYPE. */
|
|
const struct gcc_cp_function_args *) /* Argument VALUES. */
|
|
|
|
/* Build a gcc_expr that denotes a new ("nw") or new[] ("na")
|
|
expression of TYPE, with or without a GLOBAL_NS qualifier (prefix
|
|
the NEW_OP with "gs"), with or without PLACEMENT, with or without
|
|
INITIALIZER. If it's not a placement new, PLACEMENT must be NULL
|
|
(rather than a zero-length placement arg list). If there's no
|
|
specified initializer, INITIALIZER must be NULL; a zero-length arg
|
|
list stands for a default initializer. */
|
|
|
|
GCC_METHOD4 (gcc_expr, build_new_expr,
|
|
const char *, /* Argument NEW_OP. */
|
|
const struct gcc_cp_function_args *, /* Argument PLACEMENT. */
|
|
gcc_type, /* Argument TYPE. */
|
|
const struct gcc_cp_function_args *) /* Argument INITIALIZER. */
|
|
|
|
/* Return a call expression that calls CALLABLE with arguments ARGS.
|
|
CALLABLE may be a function, a callable object, a pointer to
|
|
function, an unresolved expression, an unresolved overload set, an
|
|
object expression combined with a member function overload set or a
|
|
pointer-to-member. If QUALIFIED_P, CALLABLE will be interpreted as
|
|
a qualified name, preventing virtual function dispatch. */
|
|
|
|
GCC_METHOD3 (gcc_expr, build_call_expr,
|
|
gcc_expr, /* Argument CALLABLE. */
|
|
int /* bool */, /* Argument QUALIFIED_P. */
|
|
const struct gcc_cp_function_args *) /* Argument ARGS. */
|
|
|
|
/* Return the type of the gcc_expr OPERAND.
|
|
Use this for decltype.
|
|
For decltype (auto), pass a NULL OPERAND.
|
|
|
|
Note: for template-dependent expressions, the result is NULL,
|
|
because the type is only computed when template argument
|
|
substitution is performed. */
|
|
|
|
GCC_METHOD1 (gcc_type, get_expr_type,
|
|
gcc_expr) /* Argument OPERAND. */
|
|
|
|
/* Introduce a specialization of a template function.
|
|
|
|
TEMPLATE_DECL is the template function, and TARGS are the arguments
|
|
for the specialization. ADDRESS is the address of the
|
|
specialization. FILENAME and LINE_NUMBER specify the source
|
|
location associated with the template function specialization. */
|
|
|
|
GCC_METHOD5 (gcc_decl, build_function_template_specialization,
|
|
gcc_decl, /* Argument TEMPLATE_DECL. */
|
|
const struct gcc_cp_template_args *, /* Argument TARGS. */
|
|
gcc_address, /* Argument ADDRESS. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Specialize a template class as an incomplete type. A definition
|
|
can be supplied later, with start_class_type.
|
|
|
|
TEMPLATE_DECL is the template class, and TARGS are the arguments
|
|
for the specialization. FILENAME and LINE_NUMBER specify the
|
|
source location associated with the template class
|
|
specialization. */
|
|
|
|
GCC_METHOD4 (gcc_decl, build_class_template_specialization,
|
|
gcc_decl, /* Argument TEMPLATE_DECL. */
|
|
const struct gcc_cp_template_args *, /* Argument TARGS. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Start defining a 'class', 'struct' or 'union' type, entering its
|
|
own binding level. Initially it has no fields.
|
|
|
|
TYPEDECL is the forward-declaration of the type, returned by
|
|
build_decl. BASE_CLASSES indicate the base classes of class NAME.
|
|
FILENAME and LINE_NUMBER specify the source location associated
|
|
with the class definition, should they be different from those of
|
|
the forward declaration. */
|
|
|
|
GCC_METHOD4 (gcc_type, start_class_type,
|
|
gcc_decl, /* Argument TYPEDECL. */
|
|
const struct gcc_vbase_array *,/* Argument BASE_CLASSES. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Create a new closure class type, record it as the
|
|
DISCRIMINATOR-numbered closure type in the current scope (or
|
|
associated with EXTRA_SCOPE, if non-NULL), and enter the closure
|
|
type's own binding level. This primitive would sort of combine
|
|
build_decl and start_class_type, if they could be used to introduce
|
|
a closure type. Initially it has no fields.
|
|
|
|
FILENAME and LINE_NUMBER specify the source location associated
|
|
with the class. EXTRA_SCOPE, if non-NULL, must be a PARM_DECL of
|
|
the current function, or a FIELD_DECL of the current class. If it
|
|
is NULL, the current scope must be a function. */
|
|
|
|
GCC_METHOD5 (gcc_type, start_closure_class_type,
|
|
int, /* Argument DISCRIMINATOR. */
|
|
gcc_decl, /* Argument EXTRA_SCOPE. */
|
|
enum gcc_cp_symbol_kind, /* Argument FLAGS. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Add a non-static data member to the most-recently-started
|
|
unfinished struct or union type. FIELD_NAME is the field's name.
|
|
FIELD_TYPE is the type of the field. BITSIZE and BITPOS indicate
|
|
where in the struct the field occurs. */
|
|
|
|
GCC_METHOD5 (gcc_decl, build_field,
|
|
const char *, /* Argument FIELD_NAME. */
|
|
gcc_type, /* Argument FIELD_TYPE. */
|
|
enum gcc_cp_symbol_kind, /* Argument FIELD_FLAGS. */
|
|
unsigned long, /* Argument BITSIZE. */
|
|
unsigned long) /* Argument BITPOS. */
|
|
|
|
/* After all the fields have been added to a struct, class or union,
|
|
the struct or union type must be "finished". This does some final
|
|
cleanups in GCC, and pops to the binding level that was in effect
|
|
before the matching start_class_type or
|
|
start_closure_class_type. */
|
|
|
|
GCC_METHOD1 (int /* bool */, finish_class_type,
|
|
unsigned long) /* Argument SIZE_IN_BYTES. */
|
|
|
|
/* Create a new 'enum' type, and record it in the current binding
|
|
level. The new type initially has no associated constants.
|
|
|
|
NAME is the enum name. FILENAME and LINE_NUMBER specify its source
|
|
location. */
|
|
|
|
GCC_METHOD5 (gcc_type, start_enum_type,
|
|
const char *, /* Argument NAME. */
|
|
gcc_type, /* Argument UNDERLYING_INT_TYPE. */
|
|
enum gcc_cp_symbol_kind, /* Argument FLAGS. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Add a new constant to an enum type. NAME is the constant's name
|
|
and VALUE is its value. Returns a gcc_decl for the constant. */
|
|
|
|
GCC_METHOD3 (gcc_decl, build_enum_constant,
|
|
gcc_type, /* Argument ENUM_TYPE. */
|
|
const char *, /* Argument NAME. */
|
|
unsigned long) /* Argument VALUE. */
|
|
|
|
/* After all the constants have been added to an enum, the type must
|
|
be "finished". This does some final cleanups in GCC. */
|
|
|
|
GCC_METHOD1 (int /* bool */, finish_enum_type,
|
|
gcc_type) /* Argument ENUM_TYPE. */
|
|
|
|
/* Create a new function type. RETURN_TYPE is the type returned by
|
|
the function, and ARGUMENT_TYPES is a vector, of length NARGS, of
|
|
the argument types. IS_VARARGS is true if the function is
|
|
varargs. */
|
|
|
|
GCC_METHOD3 (gcc_type, build_function_type,
|
|
gcc_type, /* Argument RETURN_TYPE. */
|
|
const struct gcc_type_array *,/* Argument ARGUMENT_TYPES. */
|
|
int /* bool */) /* Argument IS_VARARGS. */
|
|
|
|
/* Create a variant of a function type with an exception
|
|
specification. FUNCTION_TYPE is a function or method type.
|
|
EXCEPT_TYPES is an array with the list of exception types. Zero as
|
|
the array length implies throw() AKA noexcept(true); NULL as the
|
|
pointer to gcc_type_array implies noexcept(false), which is almost
|
|
equivalent (but distinguishable by the compiler) to an unspecified
|
|
exception list. */
|
|
|
|
GCC_METHOD2 (gcc_type, build_exception_spec_variant,
|
|
gcc_type, /* Argument FUNCTION_TYPE. */
|
|
const struct gcc_type_array *)/* Argument EXCEPT_TYPES. */
|
|
|
|
/* Create a new non-static member function type. FUNC_TYPE is the
|
|
method prototype, without the implicit THIS pointer, added as a
|
|
pointer to the QUALS-qualified CLASS_TYPE. If CLASS_TYPE is NULL,
|
|
this creates a cv-qualified (member) function type not associated
|
|
with any specific class, as needed to support "typedef void f(int)
|
|
const;", which can later be used to declare member functions and
|
|
pointers to member functions. */
|
|
|
|
GCC_METHOD4 (gcc_type, build_method_type,
|
|
gcc_type, /* Argument CLASS_TYPE. */
|
|
gcc_type, /* Argument FUNC_TYPE. */
|
|
enum gcc_cp_qualifiers, /* Argument QUALS. */
|
|
enum gcc_cp_ref_qualifiers) /* Argument RQUALS. */
|
|
|
|
/* Return a declaration for the (INDEX - 1)th argument of
|
|
FUNCTION_DECL, i.e., for the first argument, use zero as the index.
|
|
If FUNCTION_DECL is a non-static member function, use -1 to get the
|
|
implicit THIS parameter. */
|
|
|
|
GCC_METHOD2 (gcc_decl, get_function_parameter_decl,
|
|
gcc_decl, /* Argument FUNCTION_DECL. */
|
|
int) /* Argument INDEX. */
|
|
|
|
/* Return a lambda expr that constructs an instance of CLOSURE_TYPE.
|
|
Only lambda exprs without any captures can be correctly created
|
|
through these mechanisms; that's all we need to support lambdas
|
|
expressions in default parameters, the only kind that may have to
|
|
be introduced through this interface. */
|
|
|
|
GCC_METHOD1 (gcc_expr, build_lambda_expr,
|
|
gcc_type) /* Argument CLOSURE_TYPE. */
|
|
|
|
/* Return an integer type with the given properties. If BUILTIN_NAME
|
|
is non-NULL, it must name a builtin integral type with the given
|
|
signedness and size, and that is the type that will be returned. */
|
|
|
|
GCC_METHOD3 (gcc_type, get_int_type,
|
|
int /* bool */, /* Argument IS_UNSIGNED. */
|
|
unsigned long, /* Argument SIZE_IN_BYTES. */
|
|
const char *) /* Argument BUILTIN_NAME. */
|
|
|
|
/* Return the 'char' type, a distinct type from both 'signed char' and
|
|
'unsigned char' returned by int_type. */
|
|
|
|
GCC_METHOD0 (gcc_type, get_char_type)
|
|
|
|
/* Return a floating point type with the given properties. If BUILTIN_NAME
|
|
is non-NULL, it must name a builtin integral type with the given
|
|
signedness and size, and that is the type that will be returned. */
|
|
|
|
GCC_METHOD2 (gcc_type, get_float_type,
|
|
unsigned long, /* Argument SIZE_IN_BYTES. */
|
|
const char *) /* Argument BUILTIN_NAME. */
|
|
|
|
/* Return the 'void' type. */
|
|
|
|
GCC_METHOD0 (gcc_type, get_void_type)
|
|
|
|
/* Return the 'bool' type. */
|
|
|
|
GCC_METHOD0 (gcc_type, get_bool_type)
|
|
|
|
/* Return the std::nullptr_t type. */
|
|
|
|
GCC_METHOD0 (gcc_type, get_nullptr_type)
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|
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/* Return the nullptr constant. */
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GCC_METHOD0 (gcc_expr, get_nullptr_constant)
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|
|
/* Create a new array type. If NUM_ELEMENTS is -1, then the array
|
|
is assumed to have an unknown length. */
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|
|
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GCC_METHOD2 (gcc_type, build_array_type,
|
|
gcc_type, /* Argument ELEMENT_TYPE. */
|
|
int) /* Argument NUM_ELEMENTS. */
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|
|
|
/* Create a new array type. NUM_ELEMENTS is a template-dependent
|
|
expression. */
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|
|
|
GCC_METHOD2 (gcc_type, build_dependent_array_type,
|
|
gcc_type, /* Argument ELEMENT_TYPE. */
|
|
gcc_expr) /* Argument NUM_ELEMENTS. */
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|
|
|
/* Create a new variably-sized array type. UPPER_BOUND_NAME is the
|
|
name of a local variable that holds the upper bound of the array;
|
|
it is one less than the array size. */
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|
|
|
GCC_METHOD2 (gcc_type, build_vla_array_type,
|
|
gcc_type, /* Argument ELEMENT_TYPE. */
|
|
const char *) /* Argument UPPER_BOUND_NAME. */
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|
|
|
/* Return a qualified variant of a given base type. QUALIFIERS says
|
|
which qualifiers to use; it is composed of or'd together
|
|
constants from 'enum gcc_cp_qualifiers'. */
|
|
|
|
GCC_METHOD2 (gcc_type, build_qualified_type,
|
|
gcc_type, /* Argument UNQUALIFIED_TYPE. */
|
|
enum gcc_cp_qualifiers) /* Argument QUALIFIERS. */
|
|
|
|
/* Build a complex type given its element type. */
|
|
|
|
GCC_METHOD1 (gcc_type, build_complex_type,
|
|
gcc_type) /* Argument ELEMENT_TYPE. */
|
|
|
|
/* Build a vector type given its element type and number of
|
|
elements. */
|
|
|
|
GCC_METHOD2 (gcc_type, build_vector_type,
|
|
gcc_type, /* Argument ELEMENT_TYPE. */
|
|
int) /* Argument NUM_ELEMENTS. */
|
|
|
|
/* Build a constant. NAME is the constant's name and VALUE is its
|
|
value. FILENAME and LINE_NUMBER refer to the type's source
|
|
location. If this is not known, FILENAME can be NULL and
|
|
LINE_NUMBER can be 0. */
|
|
|
|
GCC_METHOD5 (int /* bool */, build_constant,
|
|
gcc_type, /* Argument TYPE. */
|
|
const char *, /* Argument NAME. */
|
|
unsigned long, /* Argument VALUE. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
/* Emit an error and return an error type object. */
|
|
|
|
GCC_METHOD1 (gcc_type, error,
|
|
const char *) /* Argument MESSAGE. */
|
|
|
|
/* Declare a static_assert with the given CONDITION and ERRORMSG at
|
|
FILENAME:LINE_NUMBER. */
|
|
|
|
GCC_METHOD4 (int /* bool */, add_static_assert,
|
|
gcc_expr, /* Argument CONDITION. */
|
|
const char *, /* Argument ERRORMSG. */
|
|
const char *, /* Argument FILENAME. */
|
|
unsigned int) /* Argument LINE_NUMBER. */
|
|
|
|
#if 0
|
|
|
|
/* FIXME: We don't want to expose the internal implementation detail
|
|
that default parms are stored in function types, and it's not clear
|
|
how this or other approaches would interact with the type sharing
|
|
of e.g. ctor clones, so we're leaving this out, since default args
|
|
are not even present in debug information anyway. Besides, the set
|
|
of default args for a function may grow within its scope, and vary
|
|
independently in other scopes. */
|
|
|
|
/* Create a modified version of a function type that has default
|
|
values for some of its arguments. The returned type should ONLY be
|
|
used to define functions or methods, never to declare parameters,
|
|
variables, types or the like.
|
|
|
|
DEFAULTS must have at most as many N_ELEMENTS as there are
|
|
arguments without default values in FUNCTION_TYPE. Say, if
|
|
FUNCTION_TYPE has an argument list such as (T1, T2, T3, T4 = V0)
|
|
and DEFAULTS has 2 elements (V1, V2), the returned type will have
|
|
the following argument list: (T1, T2 = V1, T3 = V2, T4 = V0).
|
|
|
|
Any NULL expressions in DEFAULTS will be marked as deferred, and
|
|
they should be filled in with set_deferred_function_default_args. */
|
|
|
|
GCC_METHOD2 (gcc_type, add_function_default_args,
|
|
gcc_type, /* Argument FUNCTION_TYPE. */
|
|
const struct gcc_cp_function_args *) /* Argument DEFAULTS. */
|
|
|
|
/* Fill in the first deferred default args in FUNCTION_DECL with the
|
|
expressions given in DEFAULTS. This can be used when the
|
|
declaration of a parameter is needed to create a default
|
|
expression, such as taking the size of an earlier parameter, or
|
|
building a lambda expression in the parameter's context. */
|
|
|
|
GCC_METHOD2 (int /* bool */, set_deferred_function_default_args,
|
|
gcc_decl, /* Argument FUNCTION_DECL. */
|
|
const struct gcc_cp_function_args *) /* Argument DEFAULTS. */
|
|
|
|
#endif
|
|
|
|
|
|
/* When you add entry points, add them at the end, so that the new API
|
|
version remains compatible with the old version.
|
|
|
|
The following conventions have been observed as to naming entry points:
|
|
|
|
- build_* creates (and maybe records) something and returns it;
|
|
- add_* creates and records something, but doesn't return it;
|
|
- get_* obtains something without creating it;
|
|
- start_* marks the beginning of a compound (type, list, ...);
|
|
- finish_* completes the compound when needed.
|
|
|
|
Entry points that return an int (bool) and don't have a return value
|
|
specification return nonzero (true) on success and zero (false) on
|
|
failure. This is in line with libcc1's conventions of returning a
|
|
zero-initialized value in case of e.g. a transport error. */
|