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290 lines
12 KiB
Modula-2
290 lines
12 KiB
Modula-2
/* This file contains the definitions and documentation for the
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additional tree codes used in the GNU C++ compiler (see tree.def
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for the standard codes).
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Copyright (C) 1987, 1988, 1990, 1993, 1997, 1998,
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1999, 2000, 2001 Free Software Foundation, Inc.
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Hacked by Michael Tiemann (tiemann@cygnus.com)
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This file is part of GNU CC.
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GNU CC 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 2, or (at your option)
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any later version.
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GNU CC 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 GNU CC; see the file COPYING. If not, write to
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the Free Software Foundation, 59 Temple Place - Suite 330,
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Boston, MA 02111-1307, USA. */
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/* An OFFSET_REF is used in two situations:
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1. An expression of the form `A::m' where `A' is a class and `m' is
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a non-static data member. In this case, operand 0 will be a
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TYPE (corresponding to `A') and operand 1 will be a FIELD_DECL
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(corresponding to `m'.
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The expression is a pointer-to-member if its address is taken,
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but simply denotes a member of the object if its address isnot
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taken. In the latter case, resolve_offset_ref is used to
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convert it to a representation of the member referred to by the
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OFFSET_REF.
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2. An expression of the form `x.*p'. In this case, operand 0 will
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be an expression corresponding to `x' and operand 1 will be an
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expression with pointer-to-member type.
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OFFSET_REFs are only used during the parsing phase; once semantic
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analysis has taken place they are eliminated. */
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DEFTREECODE (OFFSET_REF, "offset_ref", 'r', 2)
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/* A pointer-to-member constant. For a pointer-to-member constant
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`X::Y' The PTRMEM_CST_CLASS is the RECORD_TYPE for `X' and the
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PTRMEM_CST_MEMBER is the _DECL for `Y'. */
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DEFTREECODE (PTRMEM_CST, "ptrmem_cst", 'c', 2)
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/* For NEW_EXPR, operand 0 is the placement list.
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Operand 1 is the new-declarator.
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Operand 2 is the initializer. */
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DEFTREECODE (NEW_EXPR, "nw_expr", 'e', 3)
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DEFTREECODE (VEC_NEW_EXPR, "vec_nw_expr", 'e', 3)
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/* For DELETE_EXPR, operand 0 is the store to be destroyed.
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Operand 1 is the value to pass to the destroying function
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saying whether the store should be deallocated as well. */
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DEFTREECODE (DELETE_EXPR, "dl_expr", 'e', 2)
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DEFTREECODE (VEC_DELETE_EXPR, "vec_dl_expr", 'e', 2)
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/* Value is reference to particular overloaded class method.
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Operand 0 is the class name (an IDENTIFIER_NODE);
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operand 1 is the field (also an IDENTIFIER_NODE).
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The COMPLEXITY field holds the class level (usually 0). */
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DEFTREECODE (SCOPE_REF, "scope_ref", 'r', 2)
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/* When composing an object with a member, this is the result.
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Operand 0 is the object. Operand 1 is the member (usually
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a dereferenced pointer to member). */
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DEFTREECODE (MEMBER_REF, "member_ref", 'r', 2)
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/* Type conversion operator in C++. TREE_TYPE is type that this
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operator converts to. Operand is expression to be converted. */
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DEFTREECODE (TYPE_EXPR, "type_expr", 'e', 1)
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/* For AGGR_INIT_EXPR, operand 0 is function which performs initialization,
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operand 1 is argument list to initialization function,
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and operand 2 is the slot which was allocated for this expression. */
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DEFTREECODE (AGGR_INIT_EXPR, "aggr_init_expr", 'e', 3)
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/* A throw expression. operand 0 is the expression, if there was one,
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else it is NULL_TREE. */
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DEFTREECODE (THROW_EXPR, "throw_expr", 'e', 1)
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/* An empty class object. The TREE_TYPE gives the class type. We use
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these to avoid actually creating instances of the empty classes. */
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DEFTREECODE (EMPTY_CLASS_EXPR, "empty_class_expr", 'e', 0)
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/* A reference to a member function or member functions from a base
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class. BASELINK_FUNCTIONS gives the FUNCTION_DECL,
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TEMPLATE_DECL, OVERLOAD, or TEMPLATE_ID_EXPR corresponding to the
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functions. BASELINK_BINFO gives the base from which the functions
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come, i.e., the base to which the `this' pointer must be converted
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before the functions are called. BASELINK_ACCESS_BINFO gives the
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base used to name the functions.
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A BASELINK is an expression; the TREE_TYPE of the BASELINK gives
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the type of the expression. This type is either a FUNCTION_TYPE,
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METHOD_TYPE, or `unknown_type_node' indicating that the function is
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overloaded. */
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DEFTREECODE (BASELINK, "baselink", 'e', 3)
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/* Template definition. The following fields have the specified uses,
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although there are other macros in cp-tree.h that should be used for
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accessing this data.
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DECL_ARGUMENTS template parm vector
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DECL_TEMPLATE_INFO template text &c
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DECL_VINDEX list of instantiations already produced;
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only done for functions so far
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For class template:
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DECL_INITIAL associated templates (methods &c)
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DECL_TEMPLATE_RESULT null
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For non-class templates:
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TREE_TYPE type of object to be constructed
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DECL_TEMPLATE_RESULT decl for object to be created
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(e.g., FUNCTION_DECL with tmpl parms used)
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*/
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DEFTREECODE (TEMPLATE_DECL, "template_decl", 'd', 0)
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/* Index into a template parameter list. The TEMPLATE_PARM_IDX gives
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the index (from 0) of the parameter, while the TEMPLATE_PARM_LEVEL
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gives the level (from 1) of the parameter.
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Here's an example:
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template <class T> // Index 0, Level 1.
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struct S
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{
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template <class U, // Index 0, Level 2.
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class V> // Index 1, Level 2.
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void f();
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};
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The DESCENDANTS will be a chain of TEMPLATE_PARM_INDEXs descended
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from this one. The first descendant will have the same IDX, but
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its LEVEL will be one less. The TREE_CHAIN field is used to chain
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together the descendants. The TEMPLATE_PARM_DECL is the
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declaration of this parameter, either a TYPE_DECL or CONST_DECL.
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The TEMPLATE_PARM_ORIG_LEVEL is the LEVEL of the most distant
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parent, i.e., the LEVEL that the parameter originally had when it
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was declared. For example, if we instantiate S<int>, we will have:
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struct S<int>
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{
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template <class U, // Index 0, Level 1, Orig Level 2
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class V> // Index 1, Level 1, Orig Level 2
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void f();
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};
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The LEVEL is the level of the parameter when we are worrying about
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the types of things; the ORIG_LEVEL is the level when we are
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worrying about instantiating things. */
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DEFTREECODE (TEMPLATE_PARM_INDEX, "template_parm_index", 'x',
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/* The addition of (sizeof(tree) - 1) in the next expression
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is to handle the case when padding pushes us past an even
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multiple of sizeof(tree). */
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/* We used to try to calculate this using
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1+3*sizeof(HOST_WIDE_INT), but that fails if alignment
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makes it bigger. */
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((sizeof (template_parm_index) - sizeof (struct tree_common))
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+ sizeof (tree) - 1)
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/ sizeof (tree))
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/* Index into a template parameter list. This parameter must be a type.
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The TYPE_FIELDS value will be a TEMPLATE_PARM_INDEX. */
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DEFTREECODE (TEMPLATE_TYPE_PARM, "template_type_parm", 't', 0)
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/* Index into a template parameter list for template template parameters.
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This parameter must be a type. The TYPE_FIELDS value will be a
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TEMPLATE_PARM_INDEX.
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It is used without template arguments like TT in C<TT>,
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TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO is NULL_TREE
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and TYPE_NAME is a TEMPLATE_DECL. */
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DEFTREECODE (TEMPLATE_TEMPLATE_PARM, "template_template_parm", 't', 0)
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/* Like TEMPLATE_TEMPLATE_PARM it is used with bound template arguments
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like TT<int>.
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In this case, TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO contains the
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template name and its bound arguments. TYPE_NAME is a TYPE_DECL. */
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DEFTREECODE (BOUND_TEMPLATE_TEMPLATE_PARM, "bound_template_template_parm", 't', 0)
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/* A type designated by `typename T::t'. TYPE_CONTEXT is `T',
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TYPE_NAME is an IDENTIFIER_NODE for `t'. If the type was named via
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template-id, TYPENAME_TYPE_FULLNAME will hold the TEMPLATE_ID_EXPR.
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If TREE_TYPE is present, this type was generated by the implicit
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typename extension, and the TREE_TYPE is a _TYPE from a baseclass
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of `T'. */
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DEFTREECODE (TYPENAME_TYPE, "typename_type", 't', 0)
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/* For template template argument of the form `T::template C'.
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TYPE_CONTEXT is `T', the template parameter dependent object.
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TYPE_NAME is an IDENTIFIER_NODE for `C', the member class template. */
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DEFTREECODE (UNBOUND_CLASS_TEMPLATE, "unbound_class_template", 't', 0)
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/* A type designated by `__typeof (expr)'. TYPE_FIELDS is the
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expression in question. */
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DEFTREECODE (TYPEOF_TYPE, "typeof_type", 't', 0)
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/* A using declaration. DECL_INITIAL contains the specified scope.
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This is not an alias, but is later expanded into multiple aliases. */
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DEFTREECODE (USING_DECL, "using_decl", 'd', 0)
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/* A using directive. The operand is USING_STMT_NAMESPACE. */
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DEFTREECODE (USING_STMT, "using_directive", 'e', 1)
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/* An un-parsed default argument. Looks like an IDENTIFIER_NODE. */
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DEFTREECODE (DEFAULT_ARG, "default_arg", 'x', 2)
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/* A template-id, like foo<int>. The first operand is the template.
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The second is the TREE_LIST or TREE_VEC of explicitly specified
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arguments. The template will be a FUNCTION_DECL, TEMPLATE_DECL, or
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an OVERLOAD. If the template-id refers to a member template, the
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template may be an IDENTIFIER_NODE. In an uninstantiated template,
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the template may be a LOOKUP_EXPR. */
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DEFTREECODE (TEMPLATE_ID_EXPR, "template_id_expr", 'e', 2)
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/* A list-like node for chaining overloading candidates. TREE_TYPE is
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the original name, and the parameter is the FUNCTION_DECL. */
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DEFTREECODE (OVERLOAD, "overload", 'x', 1)
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/* A generic wrapper for something not tree that we want to include in
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tree structure. */
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DEFTREECODE (WRAPPER, "wrapper", 'x', 1)
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/* Used to represent deferred name lookup for dependent names while
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parsing a template declaration. The first argument is an
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IDENTIFIER_NODE for the name in question. The TREE_TYPE is
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unused. */
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DEFTREECODE (LOOKUP_EXPR, "lookup_expr", 'e', 1)
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/* A whole bunch of tree codes for the initial, superficial parsing of
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templates. */
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DEFTREECODE (MODOP_EXPR, "modop_expr", 'e', 3)
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DEFTREECODE (CAST_EXPR, "cast_expr", '1', 1)
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DEFTREECODE (REINTERPRET_CAST_EXPR, "reinterpret_cast_expr", '1', 1)
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DEFTREECODE (CONST_CAST_EXPR, "const_cast_expr", '1', 1)
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DEFTREECODE (STATIC_CAST_EXPR, "static_cast_expr", '1', 1)
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DEFTREECODE (DYNAMIC_CAST_EXPR, "dynamic_cast_expr", '1', 1)
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DEFTREECODE (DOTSTAR_EXPR, "dotstar_expr", 'e', 2)
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DEFTREECODE (TYPEID_EXPR, "typeid_expr", 'e', 1)
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DEFTREECODE (PSEUDO_DTOR_EXPR, "pseudo_dtor_expr", 'e', 3)
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/* CTOR_INITIALIZER is a placeholder in template code for a call to
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setup_vtbl_pointer (and appears in all functions, not just ctors). */
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DEFTREECODE (CTOR_INITIALIZER, "ctor_initializer", 'e', 1)
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DEFTREECODE (RETURN_INIT, "return_init", 'e', 2)
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DEFTREECODE (TRY_BLOCK, "try_block", 'e', 2)
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DEFTREECODE (EH_SPEC_BLOCK, "eh_spec_block", 'e', 2)
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/* A HANDLER wraps a catch handler for the HANDLER_TYPE. If this is
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CATCH_ALL_TYPE, then the handler catches all types. The declaration of
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the catch variable is in HANDLER_PARMS, and the body block in
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HANDLER_BODY. */
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DEFTREECODE (HANDLER, "handler", 'e', 2)
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/* A MUST_NOT_THROW_EXPR wraps an expression that may not
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throw, and must call terminate if it does. */
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DEFTREECODE (MUST_NOT_THROW_EXPR, "must_not_throw_expr", 'e', 1)
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DEFTREECODE (TAG_DEFN, "tag_defn", 'e', 0)
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/* The following codes are used to represent implicit conversion
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sequences, in the sense of [over.best.ics]. The conversion
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sequences are connected through their first operands, with the
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first conversion to be performed at the end of the chain.
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The innermost conversion (i.e, the one at the end of the chain) is
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always an IDENTITY_CONV, corresponding to the identity conversion. */
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DEFTREECODE (IDENTITY_CONV, "identity_conv", 'e', 1)
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DEFTREECODE (LVALUE_CONV, "lvalue_conv", 'e', 1)
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DEFTREECODE (QUAL_CONV, "qual_conv", 'e', 1)
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DEFTREECODE (STD_CONV, "std_conv", 'e', 1)
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DEFTREECODE (PTR_CONV, "ptr_conv", 'e', 1)
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DEFTREECODE (PMEM_CONV, "pmem_conv", 'e', 1)
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DEFTREECODE (BASE_CONV, "base_conv", 'e', 1)
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DEFTREECODE (REF_BIND, "ref_bind", 'e', 1)
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DEFTREECODE (USER_CONV, "user_conv", 'e', 2)
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DEFTREECODE (AMBIG_CONV, "ambig_conv", 'e', 1)
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DEFTREECODE (RVALUE_CONV, "rvalue_conv", 'e', 1)
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/*
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Local variables:
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mode:c
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End:
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*/
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