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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [cp/] [parser.h] - Blame information for rev 767

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1 710 jeremybenn
/* Data structures and function exported by the C++ Parser.
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   Copyright (C) 2010 Free Software Foundation, Inc.
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   This file is part of GCC.
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   GCC is free software; you can redistribute it and/or modify it
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   under the terms of the GNU General Public License as published by
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   the Free Software Foundation; either version 3, or (at your option)
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   any later version.
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   GCC is distributed in the hope that it will be useful, but
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   WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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   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 GCC; see the file COPYING3.  If not see
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<http://www.gnu.org/licenses/>.  */
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#ifndef GCC_CP_PARSER_H
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#define GCC_CP_PARSER_H
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#include "tree.h"
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#include "c-family/c-pragma.h"
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/* A token's value and its associated deferred access checks and
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   qualifying scope.  */
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struct GTY(()) tree_check {
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  /* The value associated with the token.  */
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  tree value;
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  /* The checks that have been associated with value.  */
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  VEC (deferred_access_check, gc)* checks;
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  /* The token's qualifying scope (used when it is a
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     CPP_NESTED_NAME_SPECIFIER).  */
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  tree qualifying_scope;
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};
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/* A C++ token.  */
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typedef struct GTY (()) cp_token {
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  /* The kind of token.  */
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  ENUM_BITFIELD (cpp_ttype) type : 8;
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  /* If this token is a keyword, this value indicates which keyword.
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     Otherwise, this value is RID_MAX.  */
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  ENUM_BITFIELD (rid) keyword : 8;
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  /* Token flags.  */
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  unsigned char flags;
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  /* Identifier for the pragma.  */
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  ENUM_BITFIELD (pragma_kind) pragma_kind : 6;
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  /* True if this token is from a context where it is implicitly extern "C" */
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  BOOL_BITFIELD implicit_extern_c : 1;
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  /* True for a CPP_NAME token that is not a keyword (i.e., for which
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     KEYWORD is RID_MAX) iff this name was looked up and found to be
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     ambiguous.  An error has already been reported.  */
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  BOOL_BITFIELD ambiguous_p : 1;
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  /* True for a token that has been purged.  If a token is purged,
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     it is no longer a valid token and it should be considered
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     deleted.  */
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  BOOL_BITFIELD purged_p : 1;
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  /* The location at which this token was found.  */
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  location_t location;
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  /* The value associated with this token, if any.  */
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  union cp_token_value {
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    /* Used for CPP_NESTED_NAME_SPECIFIER and CPP_TEMPLATE_ID.  */
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    struct tree_check* GTY((tag ("1"))) tree_check_value;
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    /* Use for all other tokens.  */
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    tree GTY((tag ("0"))) value;
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  } GTY((desc ("(%1.type == CPP_TEMPLATE_ID) || (%1.type == CPP_NESTED_NAME_SPECIFIER)"))) u;
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} cp_token;
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DEF_VEC_O (cp_token);
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DEF_VEC_ALLOC_O (cp_token,gc);
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DEF_VEC_ALLOC_O (cp_token,heap);
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/* We use a stack of token pointer for saving token sets.  */
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typedef struct cp_token *cp_token_position;
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DEF_VEC_P (cp_token_position);
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DEF_VEC_ALLOC_P (cp_token_position,heap);
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/* The cp_lexer structure represents the C++ lexer.  It is responsible
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   for managing the token stream from the preprocessor and supplying
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   it to the parser.  Tokens are never added to the cp_lexer after
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   it is created.  */
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typedef struct GTY (()) cp_lexer {
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  /* The memory allocated for the buffer.  NULL if this lexer does not
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     own the token buffer.  */
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  VEC(cp_token,gc) *buffer;
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  /* A pointer just past the last available token.  The tokens
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     in this lexer are [buffer, last_token).  */
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  cp_token_position GTY ((skip)) last_token;
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  /* The next available token.  If NEXT_TOKEN is &eof_token, then there are
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     no more available tokens.  */
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  cp_token_position GTY ((skip)) next_token;
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  /* A stack indicating positions at which cp_lexer_save_tokens was
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     called.  The top entry is the most recent position at which we
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     began saving tokens.  If the stack is non-empty, we are saving
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     tokens.  */
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  VEC(cp_token_position,heap) *GTY ((skip)) saved_tokens;
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  /* The next lexer in a linked list of lexers.  */
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  struct cp_lexer *next;
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  /* True if we should output debugging information.  */
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  bool debugging_p;
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  /* True if we're in the context of parsing a pragma, and should not
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     increment past the end-of-line marker.  */
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  bool in_pragma;
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} cp_lexer;
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DEF_VEC_O (cp_lexer);
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DEF_VEC_ALLOC_O (cp_lexer,heap);
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/* cp_token_cache is a range of tokens.  There is no need to represent
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   allocate heap memory for it, since tokens are never removed from the
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   lexer's array.  There is also no need for the GC to walk through
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   a cp_token_cache, since everything in here is referenced through
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   a lexer.  */
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typedef struct GTY(()) cp_token_cache {
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  /* The beginning of the token range.  */
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  cp_token * GTY((skip)) first;
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  /* Points immediately after the last token in the range.  */
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  cp_token * GTY ((skip)) last;
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} cp_token_cache;
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typedef cp_token_cache *cp_token_cache_ptr;
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DEF_VEC_P (cp_token_cache_ptr);
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DEF_VEC_ALLOC_P (cp_token_cache_ptr,gc);
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137
struct cp_token_ident_d
138
{
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  unsigned int ident_len;
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  const char *ident_str;
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  unsigned int before_len;
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  const char *before_str;
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  unsigned int after_len;
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  const char *after_str;
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};
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typedef struct cp_token_ident_d cp_token_ident;
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/* An entry in a queue of function arguments that require post-processing.  */
150
 
151
typedef struct GTY(()) cp_default_arg_entry_d {
152
  /* The current_class_type when we parsed this arg.  */
153
  tree class_type;
154
 
155
  /* The function decl itself.  */
156
  tree decl;
157
} cp_default_arg_entry;
158
 
159
DEF_VEC_O(cp_default_arg_entry);
160
DEF_VEC_ALLOC_O(cp_default_arg_entry,gc);
161
 
162
/* An entry in a stack for member functions of local classes.  */
163
 
164
typedef struct GTY(()) cp_unparsed_functions_entry_d {
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  /* Functions with default arguments that require post-processing.
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     Functions appear in this list in declaration order.  */
167
  VEC(cp_default_arg_entry,gc) *funs_with_default_args;
168
 
169
  /* Functions with defintions that require post-processing.  Functions
170
     appear in this list in declaration order.  */
171
  VEC(tree,gc) *funs_with_definitions;
172
 
173
  /* Non-static data members with initializers that require post-processing.
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     FIELD_DECLs appear in this list in declaration order.  */
175
  VEC(tree,gc) *nsdmis;
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} cp_unparsed_functions_entry;
177
 
178
DEF_VEC_O(cp_unparsed_functions_entry);
179
DEF_VEC_ALLOC_O(cp_unparsed_functions_entry,gc);
180
 
181
/* The status of a tentative parse.  */
182
 
183
typedef enum cp_parser_status_kind
184
{
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  /* No errors have occurred.  */
186
  CP_PARSER_STATUS_KIND_NO_ERROR,
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  /* An error has occurred.  */
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  CP_PARSER_STATUS_KIND_ERROR,
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  /* We are committed to this tentative parse, whether or not an error
190
     has occurred.  */
191
  CP_PARSER_STATUS_KIND_COMMITTED
192
} cp_parser_status_kind;
193
 
194
 
195
/* Context that is saved and restored when parsing tentatively.  */
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typedef struct GTY (()) cp_parser_context {
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  /* If this is a tentative parsing context, the status of the
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     tentative parse.  */
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  enum cp_parser_status_kind status;
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  /* If non-NULL, we have just seen a `x->' or `x.' expression.  Names
201
     that are looked up in this context must be looked up both in the
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     scope given by OBJECT_TYPE (the type of `x' or `*x') and also in
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     the context of the containing expression.  */
204
  tree object_type;
205
 
206
  /* The next parsing context in the stack.  */
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  struct cp_parser_context *next;
208
} cp_parser_context;
209
 
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211
/* The cp_parser structure represents the C++ parser.  */
212
 
213
typedef struct GTY(()) cp_parser {
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  /* The lexer from which we are obtaining tokens.  */
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  cp_lexer *lexer;
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217
  /* The scope in which names should be looked up.  If NULL_TREE, then
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     we look up names in the scope that is currently open in the
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     source program.  If non-NULL, this is either a TYPE or
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     NAMESPACE_DECL for the scope in which we should look.  It can
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     also be ERROR_MARK, when we've parsed a bogus scope.
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     This value is not cleared automatically after a name is looked
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     up, so we must be careful to clear it before starting a new look
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     up sequence.  (If it is not cleared, then `X::Y' followed by `Z'
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     will look up `Z' in the scope of `X', rather than the current
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     scope.)  Unfortunately, it is difficult to tell when name lookup
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     is complete, because we sometimes peek at a token, look it up,
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     and then decide not to consume it.   */
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  tree scope;
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232
  /* OBJECT_SCOPE and QUALIFYING_SCOPE give the scopes in which the
233
     last lookup took place.  OBJECT_SCOPE is used if an expression
234
     like "x->y" or "x.y" was used; it gives the type of "*x" or "x",
235
     respectively.  QUALIFYING_SCOPE is used for an expression of the
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     form "X::Y"; it refers to X.  */
237
  tree object_scope;
238
  tree qualifying_scope;
239
 
240
  /* A stack of parsing contexts.  All but the bottom entry on the
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     stack will be tentative contexts.
242
 
243
     We parse tentatively in order to determine which construct is in
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     use in some situations.  For example, in order to determine
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     whether a statement is an expression-statement or a
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     declaration-statement we parse it tentatively as a
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     declaration-statement.  If that fails, we then reparse the same
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     token stream as an expression-statement.  */
249
  cp_parser_context *context;
250
 
251
  /* True if we are parsing GNU C++.  If this flag is not set, then
252
     GNU extensions are not recognized.  */
253
  bool allow_gnu_extensions_p;
254
 
255
  /* TRUE if the `>' token should be interpreted as the greater-than
256
     operator.  FALSE if it is the end of a template-id or
257
     template-parameter-list. In C++0x mode, this flag also applies to
258
     `>>' tokens, which are viewed as two consecutive `>' tokens when
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     this flag is FALSE.  */
260
  bool greater_than_is_operator_p;
261
 
262
  /* TRUE if default arguments are allowed within a parameter list
263
     that starts at this point. FALSE if only a gnu extension makes
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     them permissible.  */
265
  bool default_arg_ok_p;
266
 
267
  /* TRUE if we are parsing an integral constant-expression.  See
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     [expr.const] for a precise definition.  */
269
  bool integral_constant_expression_p;
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271
  /* TRUE if we are parsing an integral constant-expression -- but a
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     non-constant expression should be permitted as well.  This flag
273
     is used when parsing an array bound so that GNU variable-length
274
     arrays are tolerated.  */
275
  bool allow_non_integral_constant_expression_p;
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277
  /* TRUE if ALLOW_NON_CONSTANT_EXPRESSION_P is TRUE and something has
278
     been seen that makes the expression non-constant.  */
279
  bool non_integral_constant_expression_p;
280
 
281
  /* TRUE if local variable names and `this' are forbidden in the
282
     current context.  */
283
  bool local_variables_forbidden_p;
284
 
285
  /* TRUE if the declaration we are parsing is part of a
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     linkage-specification of the form `extern string-literal
287
     declaration'.  */
288
  bool in_unbraced_linkage_specification_p;
289
 
290
  /* TRUE if we are presently parsing a declarator, after the
291
     direct-declarator.  */
292
  bool in_declarator_p;
293
 
294
  /* TRUE if we are presently parsing a template-argument-list.  */
295
  bool in_template_argument_list_p;
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297
  /* Set to IN_ITERATION_STMT if parsing an iteration-statement,
298
     to IN_OMP_BLOCK if parsing OpenMP structured block and
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     IN_OMP_FOR if parsing OpenMP loop.  If parsing a switch statement,
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     this is bitwise ORed with IN_SWITCH_STMT, unless parsing an
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     iteration-statement, OpenMP block or loop within that switch.  */
302
#define IN_SWITCH_STMT          1
303
#define IN_ITERATION_STMT       2
304
#define IN_OMP_BLOCK            4
305
#define IN_OMP_FOR              8
306
#define IN_IF_STMT             16
307
  unsigned char in_statement;
308
 
309
  /* TRUE if we are presently parsing the body of a switch statement.
310
     Note that this doesn't quite overlap with in_statement above.
311
     The difference relates to giving the right sets of error messages:
312
     "case not in switch" vs "break statement used with OpenMP...".  */
313
  bool in_switch_statement_p;
314
 
315
  /* TRUE if we are parsing a type-id in an expression context.  In
316
     such a situation, both "type (expr)" and "type (type)" are valid
317
     alternatives.  */
318
  bool in_type_id_in_expr_p;
319
 
320
  /* TRUE if we are currently in a header file where declarations are
321
     implicitly extern "C".  */
322
  bool implicit_extern_c;
323
 
324
  /* TRUE if strings in expressions should be translated to the execution
325
     character set.  */
326
  bool translate_strings_p;
327
 
328
  /* TRUE if we are presently parsing the body of a function, but not
329
     a local class.  */
330
  bool in_function_body;
331
 
332
  /* Nonzero if we're processing a __transaction_atomic or
333
     __transaction_relaxed statement.  */
334
  unsigned char in_transaction;
335
 
336
  /* TRUE if we can auto-correct a colon to a scope operator.  */
337
  bool colon_corrects_to_scope_p;
338
 
339
  /* If non-NULL, then we are parsing a construct where new type
340
     definitions are not permitted.  The string stored here will be
341
     issued as an error message if a type is defined.  */
342
  const char *type_definition_forbidden_message;
343
 
344
  /* A stack used for member functions of local classes.  The lists
345
     contained in an individual entry can only be processed once the
346
     outermost class being defined is complete.  */
347
  VEC(cp_unparsed_functions_entry,gc) *unparsed_queues;
348
 
349
  /* The number of classes whose definitions are currently in
350
     progress.  */
351
  unsigned num_classes_being_defined;
352
 
353
  /* The number of template parameter lists that apply directly to the
354
     current declaration.  */
355
  unsigned num_template_parameter_lists;
356
} cp_parser;
357
 
358
/* In parser.c  */
359
extern void cp_lexer_debug_tokens (VEC(cp_token,gc) *);
360
extern void cp_debug_parser (FILE *, cp_parser *);
361
 
362
#endif  /* GCC_CP_PARSER_H  */

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