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|
/* Perform the semantic phase of parsing, i.e., the process of
building tree structure, checking semantic consistency, and
building RTL. These routines are used both during actual parsing
and during the instantiation of template functions.
Copyright (C) 1998, 1999, 2000 Free Software Foundation, Inc.
Written by Mark Mitchell (mmitchell@usa.net) based on code found
formerly in parse.y and pt.c.
This file is part of GNU CC.
GNU CC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
GNU CC is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with GNU CC; see the file COPYING. If not, write to the Free
Software Foundation, 59 Temple Place - Suite 330, Boston, MA
02111-1307, USA. */
#include "config.h"
#include "system.h"
#include "tree.h"
#include "cp-tree.h"
#include "except.h"
#include "lex.h"
#include "toplev.h"
#include "flags.h"
#include "ggc.h"
#include "rtl.h"
#include "output.h"
/* There routines provide a modular interface to perform many parsing
operations. They may therefore be used during actual parsing, or
during template instantiation, which may be regarded as a
degenerate form of parsing. Since the current g++ parser is
lacking in several respects, and will be reimplemented, we are
attempting to move most code that is not directly related to
parsing into this file; that will make implementing the new parser
much easier since it will be able to make use of these routines. */
static tree expand_cond PARAMS ((tree));
static tree maybe_convert_cond PARAMS ((tree));
static tree simplify_aggr_init_exprs_r PARAMS ((tree *, int *, void *));
static void deferred_type_access_control PARAMS ((void));
/* Record the fact that STMT was the last statement added to the
statement tree. */
#define SET_LAST_STMT(stmt) \
(current_stmt_tree->x_last_stmt = (stmt))
/* When parsing a template, LAST_TREE contains the last statement
parsed. These are chained together through the TREE_CHAIN field,
but often need to be re-organized since the parse is performed
bottom-up. This macro makes LAST_TREE the indicated SUBSTMT of
STMT. */
#define RECHAIN_STMTS(stmt, substmt) \
do { \
substmt = TREE_CHAIN (stmt); \
TREE_CHAIN (stmt) = NULL_TREE; \
SET_LAST_STMT (stmt); \
} while (0)
/* Finish processing the COND, the SUBSTMT condition for STMT. */
#define FINISH_COND(cond, stmt, substmt) \
do { \
if (last_tree != stmt) \
{ \
RECHAIN_STMTS (stmt, substmt); \
if (!processing_template_decl) \
{ \
cond = build_tree_list (substmt, cond); \
substmt = cond; \
} \
} \
else \
substmt = cond; \
} while (0)
/* T is a statement. Add it to the statement-tree. */
void
add_tree (t)
tree t;
{
/* Add T to the statement-tree. */
TREE_CHAIN (last_tree) = t;
SET_LAST_STMT (t);
/* When we expand a statement-tree, we must know whether or not the
statements are full-expresions. We record that fact here. */
if (building_stmt_tree ())
STMT_IS_FULL_EXPR_P (last_tree) = stmts_are_full_exprs_p;
}
/* COND is the condition-expression for an if, while, etc.,
statement. Convert it to a boolean value, if appropriate. */
static tree
maybe_convert_cond (cond)
tree cond;
{
/* Empty conditions remain empty. */
if (!cond)
return NULL_TREE;
/* Wait until we instantiate templates before doing conversion. */
if (processing_template_decl)
return cond;
/* Do the conversion. */
cond = convert_from_reference (cond);
return condition_conversion (cond);
}
/* Finish an expression-statement, whose EXPRESSION is as indicated. */
void
finish_expr_stmt (expr)
tree expr;
{
if (expr != NULL_TREE)
{
if (building_stmt_tree ())
{
/* Do default conversion if safe and possibly important,
in case within ({...}). */
if (!processing_template_decl
&& !stmts_are_full_exprs_p
&& ((TREE_CODE (TREE_TYPE (expr)) == ARRAY_TYPE
&& lvalue_p (expr))
|| TREE_CODE (TREE_TYPE (expr)) == FUNCTION_TYPE))
expr = default_conversion (expr);
if (stmts_are_full_exprs_p)
expr = convert_to_void (expr, "statement");
if (!processing_template_decl)
expr = break_out_cleanups (expr);
add_tree (build_min_nt (EXPR_STMT, expr));
}
else
{
emit_line_note (input_filename, lineno);
if (stmts_are_full_exprs_p)
expand_start_target_temps ();
cplus_expand_expr_stmt (expr);
if (stmts_are_full_exprs_p)
expand_end_target_temps ();
}
}
finish_stmt ();
/* This was an expression-statement, so we save the type of the
expression. */
last_expr_type = expr ? TREE_TYPE (expr) : NULL_TREE;
}
/* Begin an if-statement. Returns a newly created IF_STMT if
appropriate. */
tree
begin_if_stmt ()
{
tree r;
do_pushlevel ();
if (building_stmt_tree ())
{
r = build_min_nt (IF_STMT, NULL_TREE, NULL_TREE, NULL_TREE);
add_tree (r);
}
else
r = NULL_TREE;
return r;
}
/* Process the COND of an if-statement, which may be given by
IF_STMT. */
void
finish_if_stmt_cond (cond, if_stmt)
tree cond;
tree if_stmt;
{
cond = maybe_convert_cond (cond);
if (building_stmt_tree ())
FINISH_COND (cond, if_stmt, IF_COND (if_stmt));
else
{
emit_line_note (input_filename, lineno);
expand_start_cond (cond, 0);
}
}
/* Finish the then-clause of an if-statement, which may be given by
IF_STMT. */
tree
finish_then_clause (if_stmt)
tree if_stmt;
{
if (building_stmt_tree ())
{
RECHAIN_STMTS (if_stmt, THEN_CLAUSE (if_stmt));
SET_LAST_STMT (if_stmt);
return if_stmt;
}
else
return NULL_TREE;
}
/* Begin the else-clause of an if-statement. */
void
begin_else_clause ()
{
if (!building_stmt_tree ())
expand_start_else ();
}
/* Finish the else-clause of an if-statement, which may be given by
IF_STMT. */
void
finish_else_clause (if_stmt)
tree if_stmt;
{
if (building_stmt_tree ())
RECHAIN_STMTS (if_stmt, ELSE_CLAUSE (if_stmt));
}
/* Finsh an if-statement. */
void
finish_if_stmt ()
{
if (!building_stmt_tree ())
expand_end_cond ();
do_poplevel ();
finish_stmt ();
}
/* Begin a while-statement. Returns a newly created WHILE_STMT if
appropriate. */
tree
begin_while_stmt ()
{
tree r;
if (building_stmt_tree ())
{
r = build_min_nt (WHILE_STMT, NULL_TREE, NULL_TREE);
add_tree (r);
}
else
{
emit_nop ();
emit_line_note (input_filename, lineno);
expand_start_loop (1);
r = NULL_TREE;
}
do_pushlevel ();
return r;
}
/* Process the COND of a while-statement, which may be given by
WHILE_STMT. */
void
finish_while_stmt_cond (cond, while_stmt)
tree cond;
tree while_stmt;
{
cond = maybe_convert_cond (cond);
if (building_stmt_tree ())
FINISH_COND (cond, while_stmt, WHILE_COND (while_stmt));
else
{
emit_line_note (input_filename, lineno);
expand_exit_loop_if_false (0, cond);
}
/* If COND wasn't a declaration, clear out the
block we made for it and start a new one here so the
optimization in expand_end_loop will work. */
if (getdecls () == NULL_TREE)
{
do_poplevel ();
do_pushlevel ();
}
}
/* Finish a while-statement, which may be given by WHILE_STMT. */
void
finish_while_stmt (while_stmt)
tree while_stmt;
{
do_poplevel ();
if (building_stmt_tree ())
RECHAIN_STMTS (while_stmt, WHILE_BODY (while_stmt));
else
expand_end_loop ();
finish_stmt ();
}
/* Begin a do-statement. Returns a newly created DO_STMT if
appropriate. */
tree
begin_do_stmt ()
{
if (building_stmt_tree ())
{
tree r = build_min_nt (DO_STMT, NULL_TREE, NULL_TREE);
add_tree (r);
return r;
}
else
{
emit_nop ();
emit_line_note (input_filename, lineno);
expand_start_loop_continue_elsewhere (1);
return NULL_TREE;
}
}
/* Finish the body of a do-statement, which may be given by DO_STMT. */
void
finish_do_body (do_stmt)
tree do_stmt;
{
if (building_stmt_tree ())
RECHAIN_STMTS (do_stmt, DO_BODY (do_stmt));
else
expand_loop_continue_here ();
}
/* Finish a do-statement, which may be given by DO_STMT, and whose
COND is as indicated. */
void
finish_do_stmt (cond, do_stmt)
tree cond;
tree do_stmt;
{
cond = maybe_convert_cond (cond);
if (building_stmt_tree ())
DO_COND (do_stmt) = cond;
else
{
emit_line_note (input_filename, lineno);
expand_exit_loop_if_false (0, cond);
expand_end_loop ();
}
finish_stmt ();
}
/* Finish a return-statement. The EXPRESSION returned, if any, is as
indicated. */
void
finish_return_stmt (expr)
tree expr;
{
if (doing_semantic_analysis_p () && !processing_template_decl)
expr = check_return_expr (expr);
if (doing_semantic_analysis_p () && !processing_template_decl)
{
if (DECL_CONSTRUCTOR_P (current_function_decl) && ctor_label)
{
/* Even returns without a value in a constructor must return
`this'. We accomplish this by sending all returns in a
constructor to the CTOR_LABEL; finish_function emits code to
return a value there. When we finally generate the real
return statement, CTOR_LABEL is no longer set, and we fall
through into the normal return-processing code below. */
finish_goto_stmt (ctor_label);
return;
}
else if (DECL_DESTRUCTOR_P (current_function_decl))
{
/* Similarly, all destructors must run destructors for
base-classes before returning. So, all returns in a
destructor get sent to the DTOR_LABEL; finsh_function emits
code to return a value there. */
finish_goto_stmt (dtor_label);
return;
}
}
if (building_stmt_tree ())
add_tree (build_min_nt (RETURN_STMT, expr));
else
{
emit_line_note (input_filename, lineno);
c_expand_return (expr);
}
finish_stmt ();
}
/* Begin a for-statement. Returns a new FOR_STMT if appropriate. */
tree
begin_for_stmt ()
{
tree r;
if (building_stmt_tree ())
{
r = build_min_nt (FOR_STMT, NULL_TREE, NULL_TREE,
NULL_TREE, NULL_TREE);
add_tree (r);
}
else
r = NULL_TREE;
if (flag_new_for_scope > 0)
{
do_pushlevel ();
note_level_for_for ();
}
return r;
}
/* Finish the for-init-statement of a for-statement, which may be
given by FOR_STMT. */
void
finish_for_init_stmt (for_stmt)
tree for_stmt;
{
if (building_stmt_tree ())
{
if (last_tree != for_stmt)
RECHAIN_STMTS (for_stmt, FOR_INIT_STMT (for_stmt));
}
else
{
emit_nop ();
emit_line_note (input_filename, lineno);
expand_start_loop_continue_elsewhere (1);
}
do_pushlevel ();
}
/* Finish the COND of a for-statement, which may be given by
FOR_STMT. */
void
finish_for_cond (cond, for_stmt)
tree cond;
tree for_stmt;
{
cond = maybe_convert_cond (cond);
if (building_stmt_tree ())
FINISH_COND (cond, for_stmt, FOR_COND (for_stmt));
else
{
emit_line_note (input_filename, lineno);
if (cond)
expand_exit_loop_if_false (0, cond);
}
/* If the cond wasn't a declaration, clear out the
block we made for it and start a new one here so the
optimization in expand_end_loop will work. */
if (getdecls () == NULL_TREE)
{
do_poplevel ();
do_pushlevel ();
}
}
/* Finish the increment-EXPRESSION in a for-statement, which may be
given by FOR_STMT. */
void
finish_for_expr (expr, for_stmt)
tree expr;
tree for_stmt;
{
if (building_stmt_tree ())
FOR_EXPR (for_stmt) = expr;
}
/* Finish the body of a for-statement, which may be given by
FOR_STMT. The increment-EXPR for the loop must be
provided. */
void
finish_for_stmt (expr, for_stmt)
tree expr;
tree for_stmt;
{
/* Pop the scope for the body of the loop. */
do_poplevel ();
if (building_stmt_tree ())
RECHAIN_STMTS (for_stmt, FOR_BODY (for_stmt));
else
{
emit_line_note (input_filename, lineno);
expand_loop_continue_here ();
if (expr)
finish_expr_stmt (expr);
expand_end_loop ();
}
if (flag_new_for_scope > 0)
do_poplevel ();
finish_stmt ();
}
/* Finish a break-statement. */
void
finish_break_stmt ()
{
emit_line_note (input_filename, lineno);
if (building_stmt_tree ())
add_tree (build_min_nt (BREAK_STMT));
else if ( ! expand_exit_something ())
cp_error ("break statement not within loop or switch");
}
/* Finish a continue-statement. */
void
finish_continue_stmt ()
{
emit_line_note (input_filename, lineno);
if (building_stmt_tree ())
add_tree (build_min_nt (CONTINUE_STMT));
else if (! expand_continue_loop (0))
cp_error ("continue statement not within a loop");
}
/* Begin a switch-statement. Returns a new SWITCH_STMT if
appropriate. */
tree
begin_switch_stmt ()
{
tree r;
if (building_stmt_tree ())
{
r = build_min_nt (SWITCH_STMT, NULL_TREE, NULL_TREE);
add_tree (r);
}
else
r = NULL_TREE;
do_pushlevel ();
return r;
}
/* Finish the cond of a switch-statement. */
void
finish_switch_cond (cond, switch_stmt)
tree cond;
tree switch_stmt;
{
if (building_stmt_tree ())
{
if (!processing_template_decl)
{
/* Convert the condition to an integer or enumeration type. */
cond = build_expr_type_conversion (WANT_INT | WANT_ENUM, cond, 1);
if (cond == NULL_TREE)
{
error ("switch quantity not an integer");
cond = error_mark_node;
}
if (cond != error_mark_node)
{
tree idx;
tree type;
cond = default_conversion (cond);
type = TREE_TYPE (cond);
idx = get_unwidened (cond, 0);
/* We can't strip a conversion from a signed type to an unsigned,
because if we did, int_fits_type_p would do the wrong thing
when checking case values for being in range,
and it's too hard to do the right thing. */
if (TREE_UNSIGNED (TREE_TYPE (cond))
== TREE_UNSIGNED (TREE_TYPE (idx)))
cond = idx;
cond = fold (build1 (CLEANUP_POINT_EXPR, type, cond));
}
}
FINISH_COND (cond, switch_stmt, SWITCH_COND (switch_stmt));
}
else if (cond != error_mark_node)
{
emit_line_note (input_filename, lineno);
c_expand_start_case (cond);
}
else
/* The code is in error, but we don't want expand_end_case to
crash. */
c_expand_start_case (boolean_false_node);
push_switch ();
}
/* Finish the body of a switch-statement, which may be given by
SWITCH_STMT. The COND to switch on is indicated. */
void
finish_switch_stmt (cond, switch_stmt)
tree cond;
tree switch_stmt;
{
if (building_stmt_tree ())
RECHAIN_STMTS (switch_stmt, SWITCH_BODY (switch_stmt));
else
expand_end_case (cond);
pop_switch ();
do_poplevel ();
finish_stmt ();
}
/* Finish a case-label. */
void
finish_case_label (low_value, high_value)
tree low_value;
tree high_value;
{
if (building_stmt_tree ())
{
/* Add a representation for the case label to the statement
tree. */
add_tree (build_min_nt (CASE_LABEL, low_value, high_value));
/* And warn about crossing initializations, etc. */
if (!processing_template_decl)
define_case_label ();
return;
}
do_case (low_value, high_value);
}
/* Finish a goto-statement. */
void
finish_goto_stmt (destination)
tree destination;
{
if (TREE_CODE (destination) == IDENTIFIER_NODE)
destination = lookup_label (destination);
/* We warn about unused labels with -Wunused. That means we have to
mark the used labels as used. */
if (TREE_CODE (destination) == LABEL_DECL)
TREE_USED (destination) = 1;
if (building_stmt_tree ())
{
if (TREE_CODE (destination) != LABEL_DECL)
/* We don't inline calls to functions with computed gotos.
Those functions are typically up to some funny business,
and may be depending on the labels being at particular
addresses, or some such. */
DECL_UNINLINABLE (current_function_decl) = 1;
add_tree (build_min_nt (GOTO_STMT, destination));
}
else
{
emit_line_note (input_filename, lineno);
if (TREE_CODE (destination) == LABEL_DECL)
{
label_rtx (destination);
expand_goto (destination);
}
else
expand_computed_goto (destination);
}
}
/* Begin a try-block. Returns a newly-created TRY_BLOCK if
appropriate. */
tree
begin_try_block ()
{
if (building_stmt_tree ())
{
tree r = build_min_nt (TRY_BLOCK, NULL_TREE,
NULL_TREE);
add_tree (r);
return r;
}
else
{
emit_line_note (input_filename, lineno);
expand_start_try_stmts ();
return NULL_TREE;
}
}
/* Likewise, for a function-try-block. */
tree
begin_function_try_block ()
{
if (building_stmt_tree ())
{
tree r = build_min_nt (TRY_BLOCK, NULL_TREE,
NULL_TREE);
FN_TRY_BLOCK_P (r) = 1;
add_tree (r);
return r;
}
else
{
if (! current_function_parms_stored)
store_parm_decls ();
expand_start_early_try_stmts ();
return NULL_TREE;
}
}
/* Finish a try-block, which may be given by TRY_BLOCK. */
void
finish_try_block (try_block)
tree try_block;
{
if (building_stmt_tree ())
RECHAIN_STMTS (try_block, TRY_STMTS (try_block));
else
expand_start_all_catch ();
}
/* Finish the body of a cleanup try-block, which may be given by
TRY_BLOCK. */
void
finish_cleanup_try_block (try_block)
tree try_block;
{
if (building_stmt_tree ())
RECHAIN_STMTS (try_block, TRY_STMTS (try_block));
}
/* Finish an implicitly generated try-block, with a cleanup is given
by CLEANUP. */
void
finish_cleanup (cleanup, try_block)
tree cleanup;
tree try_block;
{
if (building_stmt_tree ())
{
TRY_HANDLERS (try_block) = cleanup;
CLEANUP_P (try_block) = 1;
}
else
expand_eh_region_end (protect_with_terminate (cleanup));
}
/* Likewise, for a function-try-block. */
void
finish_function_try_block (try_block)
tree try_block;
{
if (building_stmt_tree ())
{
if (TREE_CHAIN (try_block)
&& TREE_CODE (TREE_CHAIN (try_block)) == CTOR_INITIALIZER)
{
/* Chain the compound statement after the CTOR_INITIALIZER. */
TREE_CHAIN (TREE_CHAIN (try_block)) = last_tree;
/* And make the CTOR_INITIALIZER the body of the try-block. */
RECHAIN_STMTS (try_block, TRY_STMTS (try_block));
}
else
RECHAIN_STMTS (try_block, TRY_STMTS (try_block));
}
else
{
end_protect_partials ();
expand_start_all_catch ();
}
in_function_try_handler = 1;
}
/* Finish a handler-sequence for a try-block, which may be given by
TRY_BLOCK. */
void
finish_handler_sequence (try_block)
tree try_block;
{
if (building_stmt_tree ())
{
RECHAIN_STMTS (try_block, TRY_HANDLERS (try_block));
check_handlers (TRY_HANDLERS (try_block));
}
else
expand_end_all_catch ();
}
/* Likewise, for a function-try-block. */
void
finish_function_handler_sequence (try_block)
tree try_block;
{
in_function_try_handler = 0;
if (building_stmt_tree ())
{
RECHAIN_STMTS (try_block, TRY_HANDLERS (try_block));
check_handlers (TRY_HANDLERS (try_block));
}
else
expand_end_all_catch ();
}
/* Begin a handler. Returns a HANDLER if appropriate. */
tree
begin_handler ()
{
tree r;
if (building_stmt_tree ())
{
r = build_min_nt (HANDLER, NULL_TREE, NULL_TREE);
add_tree (r);
}
else
r = NULL_TREE;
do_pushlevel ();
return r;
}
/* Finish the handler-parameters for a handler, which may be given by
HANDLER. DECL is the declaration for the catch parameter, or NULL
if this is a `catch (...)' clause. */
tree
finish_handler_parms (decl, handler)
tree decl;
tree handler;
{
tree blocks = NULL_TREE;
if (processing_template_decl)
{
if (decl)
{
decl = pushdecl (decl);
decl = push_template_decl (decl);
add_decl_stmt (decl);
RECHAIN_STMTS (handler, HANDLER_PARMS (handler));
}
}
else if (building_stmt_tree ())
blocks = expand_start_catch_block (decl);
if (decl)
TREE_TYPE (handler) = TREE_TYPE (decl);
return blocks;
}
/* Note the beginning of a handler for TYPE. This function is called
at the point to which control should be transferred when an
appropriately-typed exception is thrown. */
void
begin_catch_block (type)
tree type;
{
if (building_stmt_tree ())
add_tree (build (START_CATCH_STMT, type));
else
start_catch_handler (type);
}
/* Finish a handler, which may be given by HANDLER. The BLOCKs are
the return value from the matching call to finish_handler_parms. */
void
finish_handler (blocks, handler)
tree blocks;
tree handler;
{
if (!processing_template_decl)
{
if (building_stmt_tree ())
expand_end_catch_block (blocks);
if (!building_stmt_tree ())
{
/* Fall to outside the try statement when done executing
handler and we fall off end of handler. This is jump
Lresume in the documentation. */
expand_goto (top_label_entry (&caught_return_label_stack));
end_catch_handler ();
}
}
do_poplevel ();
if (building_stmt_tree ())
RECHAIN_STMTS (handler, HANDLER_BODY (handler));
}
/* Begin a compound-statement. If HAS_NO_SCOPE is non-zero, the
compound-statement does not define a scope. Returns a new
COMPOUND_STMT if appropriate. */
tree
begin_compound_stmt (has_no_scope)
int has_no_scope;
{
tree r;
if (building_stmt_tree ())
{
r = build_min_nt (COMPOUND_STMT, NULL_TREE);
add_tree (r);
if (has_no_scope)
COMPOUND_STMT_NO_SCOPE (r) = 1;
}
else
r = NULL_TREE;
last_expr_type = NULL_TREE;
if (!has_no_scope)
do_pushlevel ();
else
/* Normally, we try hard to keep the BLOCK for a
statement-expression. But, if it's a statement-expression with
a scopeless block, there's nothing to keep, and we don't want
to accidentally keep a block *inside* the scopeless block. */
keep_next_level (0);
/* If this is the outermost block of the function, declare the
variables __FUNCTION__, __PRETTY_FUNCTION__, and so forth. */
if (cfun
&& !current_function_name_declared
&& !has_no_scope)
{
current_function_name_declared = 1;
declare_function_name ();
}
return r;
}
/* Finish a compound-statement, which may be given by COMPOUND_STMT.
If HAS_NO_SCOPE is non-zero, the compound statement does not define
a scope. */
tree
finish_compound_stmt (has_no_scope, compound_stmt)
int has_no_scope;
tree compound_stmt;
{
tree r;
tree t;
if (!has_no_scope)
r = do_poplevel ();
else
r = NULL_TREE;
if (building_stmt_tree ())
RECHAIN_STMTS (compound_stmt, COMPOUND_BODY (compound_stmt));
/* When we call finish_stmt we will lose LAST_EXPR_TYPE. But, since
the precise purpose of that variable is store the type of the
last expression statement within the last compound statement, we
preserve the value. */
t = last_expr_type;
finish_stmt ();
last_expr_type = t;
return r;
}
/* Finish an asm-statement, whose components are a CV_QUALIFIER, a
STRING, some OUTPUT_OPERANDS, some INPUT_OPERANDS, and some
CLOBBERS. */
void
finish_asm_stmt (cv_qualifier, string, output_operands,
input_operands, clobbers)
tree cv_qualifier;
tree string;
tree output_operands;
tree input_operands;
tree clobbers;
{
if (TREE_CHAIN (string))
string = combine_strings (string);
if (cv_qualifier != NULL_TREE
&& cv_qualifier != ridpointers[(int) RID_VOLATILE])
{
cp_warning ("%s qualifier ignored on asm",
IDENTIFIER_POINTER (cv_qualifier));
cv_qualifier = NULL_TREE;
}
if (building_stmt_tree ())
{
tree r = build_min_nt (ASM_STMT, cv_qualifier, string,
output_operands, input_operands,
clobbers);
add_tree (r);
}
else
{
emit_line_note (input_filename, lineno);
if (output_operands != NULL_TREE || input_operands != NULL_TREE
|| clobbers != NULL_TREE)
{
tree t;
for (t = input_operands; t; t = TREE_CHAIN (t))
TREE_VALUE (t) = decay_conversion (TREE_VALUE (t));
c_expand_asm_operands (string, output_operands,
input_operands,
clobbers,
cv_qualifier != NULL_TREE,
input_filename, lineno);
}
else
expand_asm (string);
finish_stmt ();
}
}
/* Finish a label with the indicated NAME. */
void
finish_label_stmt (name)
tree name;
{
tree decl = define_label (input_filename, lineno, name);
if (building_stmt_tree ())
add_tree (build_min_nt (LABEL_STMT, decl));
else if (decl)
expand_label (decl);
}
/* Finish a series of declarations for local labels. G++ allows users
to declare "local" labels, i.e., labels with scope. This extension
is useful when writing code involving statement-expressions. */
void
finish_label_decl (name)
tree name;
{
tree decl = declare_local_label (name);
if (building_stmt_tree ())
add_decl_stmt (decl);
}
/* Create a declaration statement for the declaration given by the
DECL. */
void
add_decl_stmt (decl)
tree decl;
{
tree decl_stmt;
/* We need the type to last until instantiation time. */
decl_stmt = build_min_nt (DECL_STMT, decl);
add_tree (decl_stmt);
}
/* We're in a constructor, and have just constructed a a subobject of
*THIS. CLEANUP is code to run if an exception is thrown before the
end of the current function is reached. */
void
finish_subobject (cleanup)
tree cleanup;
{
if (building_stmt_tree ())
{
tree r = build_min_nt (SUBOBJECT, cleanup);
add_tree (r);
}
else
add_partial_entry (cleanup);
}
/* When DECL goes out of scope, make sure that CLEANUP is executed. */
void
finish_decl_cleanup (decl, cleanup)
tree decl;
tree cleanup;
{
if (building_stmt_tree ())
add_tree (build_min_nt (CLEANUP_STMT, decl, cleanup));
else if (!decl
|| (DECL_SIZE (decl) && TREE_TYPE (decl) != error_mark_node))
expand_decl_cleanup (decl, cleanup);
}
/* Bind a name and initialization to the return value of
the current function. */
void
finish_named_return_value (return_id, init)
tree return_id, init;
{
tree decl = DECL_RESULT (current_function_decl);
if (pedantic)
/* Give this error as many times as there are occurrences,
so that users can use Emacs compilation buffers to find
and fix all such places. */
pedwarn ("ISO C++ does not permit named return values");
if (return_id != NULL_TREE)
{
if (DECL_NAME (decl) == NULL_TREE)
{
DECL_NAME (decl) = return_id;
DECL_ASSEMBLER_NAME (decl) = return_id;
}
else
{
cp_error ("return identifier `%D' already in place", return_id);
return;
}
}
/* Can't let this happen for constructors. */
if (DECL_CONSTRUCTOR_P (current_function_decl))
{
error ("can't redefine default return value for constructors");
return;
}
/* If we have a named return value, put that in our scope as well. */
if (DECL_NAME (decl) != NULL_TREE)
{
/* Let `cp_finish_decl' know that this initializer is ok. */
DECL_INITIAL (decl) = init;
if (doing_semantic_analysis_p ())
pushdecl (decl);
if (building_stmt_tree ())
add_tree (build_min_nt (RETURN_INIT, return_id, init));
else
{
cp_finish_decl (decl, init, NULL_TREE, 0);
store_return_init (decl);
}
}
/* Don't use tree-inlining for functions with named return values.
That doesn't work properly because we don't do any translation of
the RETURN_INITs when they are copied. */
DECL_UNINLINABLE (current_function_decl) = 1;
}
/* Cache the value of this class's main virtual function table pointer
in a register variable. This will save one indirection if a
more than one virtual function call is made this function. */
void
setup_vtbl_ptr ()
{
my_friendly_assert (doing_semantic_analysis_p (), 19990919);
/* If we've already done this, there's no need to do it again. */
if (vtbls_set_up_p)
return;
if (DECL_CONSTRUCTOR_P (current_function_decl))
{
if (processing_template_decl)
add_tree (build_min_nt
(CTOR_INITIALIZER,
current_member_init_list, current_base_init_list));
else
{
tree ctor_stmt;
/* Mark the beginning of the constructor. */
ctor_stmt = build_min_nt (CTOR_STMT);
CTOR_BEGIN_P (ctor_stmt) = 1;
add_tree (ctor_stmt);
/* And actually initialize the base-classes and members. */
emit_base_init (current_class_type);
}
}
else if (DECL_DESTRUCTOR_P (current_function_decl)
&& !processing_template_decl)
{
tree if_stmt;
tree compound_stmt;
int saved_cfnd;
/* If the dtor is empty, and we know there is not possible way we
could use any vtable entries, before they are possibly set by
a base class dtor, we don't have to setup the vtables, as we
know that any base class dtoring will set up any vtables it
needs. We avoid MI, because one base class dtor can do a
virtual dispatch to an overridden function that would need to
have a non-related vtable set up, we cannot avoid setting up
vtables in that case. We could change this to see if there is
just one vtable. */
if_stmt = begin_if_stmt ();
/* If it is not safe to avoid setting up the vtables, then
someone will change the condition to be boolean_true_node.
(Actually, for now, we do not have code to set the condition
appropriately, so we just assume that we always need to
initialize the vtables.) */
finish_if_stmt_cond (boolean_true_node, if_stmt);
current_vcalls_possible_p = &IF_COND (if_stmt);
/* Don't declare __PRETTY_FUNCTION__ and friends here when we
open the block for the if-body. */
saved_cfnd = current_function_name_declared;
current_function_name_declared = 1;
compound_stmt = begin_compound_stmt (/*has_no_scope=*/0);
current_function_name_declared = saved_cfnd;
/* Make all virtual function table pointers in non-virtual base
classes point to CURRENT_CLASS_TYPE's virtual function
tables. */
initialize_vtbl_ptrs (current_class_type,
current_class_ptr);
finish_compound_stmt (/*has_no_scope=*/0, compound_stmt);
finish_then_clause (if_stmt);
finish_if_stmt ();
}
/* Always keep the BLOCK node associated with the outermost pair of
curly braces of a function. These are needed for correct
operation of dwarfout.c. */
keep_next_level (1);
/* The virtual function tables are set up now. */
vtbls_set_up_p = 1;
}
/* Add a scope-statement to the statement-tree. BEGIN_P indicates
whether this statements opens or closes a scope. PARTIAL_P is true
for a partial scope, i.e, the scope that begins after a label when
an object that needs a cleanup is created. If BEGIN_P is nonzero,
returns a new TREE_LIST representing the top of the SCOPE_STMT
stack. The TREE_PURPOSE is the new SCOPE_STMT. If BEGIN_P is
zero, returns a TREE_LIST whose TREE_VALUE is the new SCOPE_STMT,
and whose TREE_PURPOSE is the matching SCOPE_STMT iwth
SCOPE_BEGIN_P set. */
tree
add_scope_stmt (begin_p, partial_p)
int begin_p;
int partial_p;
{
tree ss;
tree top;
/* Build the statement. */
ss = build_min_nt (SCOPE_STMT, NULL_TREE);
SCOPE_BEGIN_P (ss) = begin_p;
SCOPE_PARTIAL_P (ss) = partial_p;
/* Keep the scope stack up to date. */
if (begin_p)
{
current_scope_stmt_stack
= tree_cons (ss, NULL_TREE, current_scope_stmt_stack);
top = current_scope_stmt_stack;
}
else
{
top = current_scope_stmt_stack;
TREE_VALUE (top) = ss;
current_scope_stmt_stack = TREE_CHAIN (top);
}
/* Add the new statement to the statement-tree. */
add_tree (ss);
return top;
}
/* Begin a new scope. */
void
do_pushlevel ()
{
if (!building_stmt_tree ())
{
emit_line_note (input_filename, lineno);
clear_last_expr ();
}
if (stmts_are_full_exprs_p)
{
pushlevel (0);
if (!building_stmt_tree ()
&& !cfun->x_whole_function_mode_p)
my_friendly_abort (19991129);
if (building_stmt_tree () && !processing_template_decl)
add_scope_stmt (/*begin_p=*/1, /*partial_p=*/0);
}
}
/* Finish a scope. */
tree
do_poplevel ()
{
tree block = NULL_TREE;
if (stmts_are_full_exprs_p)
{
tree scope_stmts;
if (building_stmt_tree () && !processing_template_decl)
scope_stmts = add_scope_stmt (/*begin_p=*/0, /*partial_p=*/0);
else
scope_stmts = NULL_TREE;
block = poplevel (kept_level_p (), 1, 0);
if (block && !processing_template_decl)
{
SCOPE_STMT_BLOCK (TREE_PURPOSE (scope_stmts)) = block;
SCOPE_STMT_BLOCK (TREE_VALUE (scope_stmts)) = block;
}
}
return block;
}
/* Finish a parenthesized expression EXPR. */
tree
finish_parenthesized_expr (expr)
tree expr;
{
if (IS_EXPR_CODE_CLASS (TREE_CODE_CLASS (TREE_CODE (expr))))
/* This inhibits warnings in truthvalue_conversion. */
C_SET_EXP_ORIGINAL_CODE (expr, ERROR_MARK);
return expr;
}
/* Begin a statement-expression. The value returned must be passed to
finish_stmt_expr. */
tree
begin_stmt_expr ()
{
/* If we're outside a function, we won't have a statement-tree to
work with. But, if we see a statement-expression we need to
create one. */
if (! cfun && !last_tree)
begin_stmt_tree (&scope_chain->x_saved_tree);
keep_next_level (1);
/* If we're building a statement tree, then the upcoming compound
statement will be chained onto the tree structure, starting at
last_tree. We return last_tree so that we can later unhook the
compound statement. */
return building_stmt_tree () ? last_tree : expand_start_stmt_expr();
}
/* Finish a statement-expression. RTL_EXPR should be the value
returned by the previous begin_stmt_expr; EXPR is the
statement-expression. Returns an expression representing the
statement-expression. */
tree
finish_stmt_expr (rtl_expr)
tree rtl_expr;
{
tree result;
if (!building_stmt_tree ())
rtl_expr = expand_end_stmt_expr (rtl_expr);
if (building_stmt_tree ())
{
/* If the last thing in the statement-expression was not an
expression-statement, then it has type `void'. */
if (!last_expr_type)
last_expr_type = void_type_node;
result = build_min (STMT_EXPR, last_expr_type, last_tree);
TREE_SIDE_EFFECTS (result) = 1;
/* Remove the compound statement from the tree structure; it is
now saved in the STMT_EXPR. */
SET_LAST_STMT (rtl_expr);
TREE_CHAIN (last_tree) = NULL_TREE;
}
else
result = rtl_expr;
/* If we created a statement-tree for this statement-expression,
remove it now. */
if (! cfun
&& TREE_CHAIN (scope_chain->x_saved_tree) == NULL_TREE)
finish_stmt_tree (&scope_chain->x_saved_tree);
return result;
}
/* Finish a call to FN with ARGS. Returns a representation of the
call. */
tree
finish_call_expr (fn, args, koenig)
tree fn;
tree args;
int koenig;
{
tree result;
if (koenig)
{
if (TREE_CODE (fn) == BIT_NOT_EXPR)
fn = build_x_unary_op (BIT_NOT_EXPR, TREE_OPERAND (fn, 0));
else if (TREE_CODE (fn) != TEMPLATE_ID_EXPR)
fn = do_identifier (fn, 2, args);
}
result = build_x_function_call (fn, args, current_class_ref);
if (TREE_CODE (result) == CALL_EXPR
&& (! TREE_TYPE (result)
|| TREE_CODE (TREE_TYPE (result)) != VOID_TYPE))
result = require_complete_type (result);
return result;
}
/* Finish a call to a postfix increment or decrement or EXPR. (Which
is indicated by CODE, which should be POSTINCREMENT_EXPR or
POSTDECREMENT_EXPR.) */
tree
finish_increment_expr (expr, code)
tree expr;
enum tree_code code;
{
/* If we get an OFFSET_REF, turn it into what it really means (e.g.,
a COMPONENT_REF). This way if we've got, say, a reference to a
static member that's being operated on, we don't end up trying to
find a member operator for the class it's in. */
if (TREE_CODE (expr) == OFFSET_REF)
expr = resolve_offset_ref (expr);
return build_x_unary_op (code, expr);
}
/* Finish a use of `this'. Returns an expression for `this'. */
tree
finish_this_expr ()
{
tree result;
if (current_class_ptr)
{
#ifdef WARNING_ABOUT_CCD
TREE_USED (current_class_ptr) = 1;
#endif
result = current_class_ptr;
}
else if (current_function_decl
&& DECL_STATIC_FUNCTION_P (current_function_decl))
{
error ("`this' is unavailable for static member functions");
result = error_mark_node;
}
else
{
if (current_function_decl)
error ("invalid use of `this' in non-member function");
else
error ("invalid use of `this' at top level");
result = error_mark_node;
}
return result;
}
/* Finish a member function call using OBJECT and ARGS as arguments to
FN. Returns an expression for the call. */
tree
finish_object_call_expr (fn, object, args)
tree fn;
tree object;
tree args;
{
#if 0
/* This is a future direction of this code, but because
build_x_function_call cannot always undo what is done in
build_component_ref entirely yet, we cannot do this. */
tree real_fn = build_component_ref (object, fn, NULL_TREE, 1);
return finish_call_expr (real_fn, args);
#else
if (DECL_DECLARES_TYPE_P (fn))
{
if (processing_template_decl)
/* This can happen on code like:
class X;
template <class T> void f(T t) {
t.X();
}
We just grab the underlying IDENTIFIER. */
fn = DECL_NAME (fn);
else
{
cp_error ("calling type `%T' like a method", fn);
return error_mark_node;
}
}
return build_method_call (object, fn, args, NULL_TREE, LOOKUP_NORMAL);
#endif
}
/* Finish a qualified member function call using OBJECT and ARGS as
arguments to FN. Returns an expressino for the call. */
tree
finish_qualified_object_call_expr (fn, object, args)
tree fn;
tree object;
tree args;
{
return build_scoped_method_call (object, TREE_OPERAND (fn, 0),
TREE_OPERAND (fn, 1), args);
}
/* Finish a pseudo-destructor call expression of OBJECT, with SCOPE
being the scope, if any, of DESTRUCTOR. Returns an expression for
the call. */
tree
finish_pseudo_destructor_call_expr (object, scope, destructor)
tree object;
tree scope;
tree destructor;
{
if (processing_template_decl)
return build_min_nt (PSEUDO_DTOR_EXPR, object, scope, destructor);
if (scope && scope != destructor)
cp_error ("destructor specifier `%T::~%T()' must have matching names",
scope, destructor);
if ((scope == NULL_TREE || IDENTIFIER_GLOBAL_VALUE (destructor))
&& (TREE_CODE (TREE_TYPE (object)) !=
TREE_CODE (TREE_TYPE (IDENTIFIER_GLOBAL_VALUE (destructor)))))
cp_error ("`%E' is not of type `%T'", object, destructor);
return cp_convert (void_type_node, object);
}
/* Finish a call to a globally qualified member function FN using
ARGS. Returns an expression for the call. */
tree
finish_qualified_call_expr (fn, args)
tree fn;
tree args;
{
if (processing_template_decl)
return build_min_nt (CALL_EXPR, fn, args, NULL_TREE);
else
return build_member_call (TREE_OPERAND (fn, 0),
TREE_OPERAND (fn, 1),
args);
}
/* Finish an expression taking the address of LABEL. Returns an
expression for the address. */
tree
finish_label_address_expr (label)
tree label;
{
tree result;
label = lookup_label (label);
if (label == NULL_TREE)
result = null_pointer_node;
else
{
TREE_USED (label) = 1;
result = build1 (ADDR_EXPR, ptr_type_node, label);
TREE_CONSTANT (result) = 1;
/* This function cannot be inlined. All jumps to the addressed
label should wind up at the same point. */
DECL_UNINLINABLE (current_function_decl) = 1;
}
return result;
}
/* Finish an expression of the form CODE EXPR. */
tree
finish_unary_op_expr (code, expr)
enum tree_code code;
tree expr;
{
tree result = build_x_unary_op (code, expr);
/* Inside a template, build_x_unary_op does not fold the
expression. So check whether the result is folded before
setting TREE_NEGATED_INT. */
if (code == NEGATE_EXPR && TREE_CODE (expr) == INTEGER_CST
&& TREE_CODE (result) == INTEGER_CST
&& !TREE_UNSIGNED (TREE_TYPE (result))
&& INT_CST_LT (result, integer_zero_node))
TREE_NEGATED_INT (result) = 1;
overflow_warning (result);
return result;
}
/* Finish an id-expression. */
tree
finish_id_expr (expr)
tree expr;
{
if (TREE_CODE (expr) == IDENTIFIER_NODE)
expr = do_identifier (expr, 1, NULL_TREE);
return expr;
}
static tree current_type_lookups;
/* Perform deferred access control for types used in the type of a
declaration. */
static void
deferred_type_access_control ()
{
tree lookup = type_lookups;
if (lookup == error_mark_node)
return;
for (; lookup; lookup = TREE_CHAIN (lookup))
enforce_access (TREE_PURPOSE (lookup), TREE_VALUE (lookup));
}
void
decl_type_access_control (decl)
tree decl;
{
tree save_fn;
if (type_lookups == error_mark_node)
return;
save_fn = current_function_decl;
if (decl && TREE_CODE (decl) == FUNCTION_DECL)
current_function_decl = decl;
deferred_type_access_control ();
current_function_decl = save_fn;
/* Now strip away the checks for the current declarator; they were
added to type_lookups after typed_declspecs saved the copy that
ended up in current_type_lookups. */
type_lookups = current_type_lookups;
}
void
save_type_access_control (lookups)
tree lookups;
{
current_type_lookups = lookups;
}
/* Begin a function definition declared with DECL_SPECS and
DECLARATOR. Returns non-zero if the function-declaration is
legal. */
int
begin_function_definition (decl_specs, declarator)
tree decl_specs;
tree declarator;
{
tree specs;
tree attrs;
split_specs_attrs (decl_specs, &specs, &attrs);
if (!start_function (specs, declarator, attrs, SF_DEFAULT))
return 0;
deferred_type_access_control ();
type_lookups = error_mark_node;
reinit_parse_for_function ();
/* The things we're about to see are not directly qualified by any
template headers we've seen thus far. */
reset_specialization ();
return 1;
}
/* Begin a constructor declarator of the form `SCOPE::NAME'. Returns
a SCOPE_REF. */
tree
begin_constructor_declarator (scope, name)
tree scope;
tree name;
{
tree result = build_parse_node (SCOPE_REF, scope, name);
enter_scope_of (result);
return result;
}
/* Finish an init-declarator. Returns a DECL. */
tree
finish_declarator (declarator, declspecs, attributes,
prefix_attributes, initialized)
tree declarator;
tree declspecs;
tree attributes;
tree prefix_attributes;
int initialized;
{
return start_decl (declarator, declspecs, initialized, attributes,
prefix_attributes);
}
/* Finish a translation unit. */
void
finish_translation_unit ()
{
/* In case there were missing closebraces,
get us back to the global binding level. */
pop_everything ();
while (current_namespace != global_namespace)
pop_namespace ();
finish_file ();
}
/* Finish a template type parameter, specified as AGGR IDENTIFIER.
Returns the parameter. */
tree
finish_template_type_parm (aggr, identifier)
tree aggr;
tree identifier;
{
if (aggr != class_type_node)
{
pedwarn ("template type parameters must use the keyword `class' or `typename'");
aggr = class_type_node;
}
return build_tree_list (aggr, identifier);
}
/* Finish a template template parameter, specified as AGGR IDENTIFIER.
Returns the parameter. */
tree
finish_template_template_parm (aggr, identifier)
tree aggr;
tree identifier;
{
tree decl = build_decl (TYPE_DECL, identifier, NULL_TREE);
tree tmpl = build_lang_decl (TEMPLATE_DECL, identifier, NULL_TREE);
DECL_TEMPLATE_PARMS (tmpl) = current_template_parms;
DECL_TEMPLATE_RESULT (tmpl) = decl;
SET_DECL_ARTIFICIAL (decl);
end_template_decl ();
return finish_template_type_parm (aggr, tmpl);
}
/* Finish a parameter list, indicated by PARMS. If ELLIPSIS is
non-zero, the parameter list was terminated by a `...'. */
tree
finish_parmlist (parms, ellipsis)
tree parms;
int ellipsis;
{
if (!ellipsis)
chainon (parms, void_list_node);
/* We mark the PARMS as a parmlist so that declarator processing can
disambiguate certain constructs. */
if (parms != NULL_TREE)
TREE_PARMLIST (parms) = 1;
return parms;
}
/* Begin a class definition, as indicated by T. */
tree
begin_class_definition (t)
tree t;
{
if (t == error_mark_node
|| ! IS_AGGR_TYPE (t))
{
t = make_aggr_type (RECORD_TYPE);
pushtag (make_anon_name (), t, 0);
}
/* In a definition of a member class template, we will get here with an
implicit typename, a TYPENAME_TYPE with a type. */
if (TREE_CODE (t) == TYPENAME_TYPE)
t = TREE_TYPE (t);
/* If we generated a partial instantiation of this type, but now
we're seeing a real definition, we're actually looking at a
partial specialization. Consider:
template <class T, class U>
struct Y {};
template <class T>
struct X {};
template <class T, class U>
void f()
{
typename X<Y<T, U> >::A a;
}
template <class T, class U>
struct X<Y<T, U> >
{
};
We have to undo the effects of the previous partial
instantiation. */
if (PARTIAL_INSTANTIATION_P (t))
{
if (!pedantic)
{
/* Unfortunately, when we're not in pedantic mode, we
attempt to actually fill in some of the fields of the
partial instantiation, in order to support the implicit
typename extension. Clear those fields now, in
preparation for the definition here. The fields cleared
here must match those set in instantiate_class_template.
Look for a comment mentioning begin_class_definition
there. */
TYPE_BINFO_BASETYPES (t) = NULL_TREE;
TYPE_FIELDS (t) = NULL_TREE;
TYPE_METHODS (t) = NULL_TREE;
CLASSTYPE_TAGS (t) = NULL_TREE;
TYPE_SIZE (t) = NULL_TREE;
}
/* This isn't a partial instantiation any more. */
PARTIAL_INSTANTIATION_P (t) = 0;
}
/* If this type was already complete, and we see another definition,
that's an error. */
else if (COMPLETE_TYPE_P (t))
duplicate_tag_error (t);
/* Update the location of the decl. */
DECL_SOURCE_FILE (TYPE_NAME (t)) = input_filename;
DECL_SOURCE_LINE (TYPE_NAME (t)) = lineno;
if (TYPE_BEING_DEFINED (t))
{
t = make_aggr_type (TREE_CODE (t));
pushtag (TYPE_IDENTIFIER (t), t, 0);
}
maybe_process_partial_specialization (t);
pushclass (t, 1);
TYPE_BEING_DEFINED (t) = 1;
/* Reset the interface data, at the earliest possible
moment, as it might have been set via a class foo;
before. */
{
tree name = TYPE_IDENTIFIER (t);
if (! ANON_AGGRNAME_P (name))
{
CLASSTYPE_INTERFACE_ONLY (t) = interface_only;
SET_CLASSTYPE_INTERFACE_UNKNOWN_X
(t, interface_unknown);
}
/* Only leave this bit clear if we know this
class is part of an interface-only specification. */
if (! CLASSTYPE_INTERFACE_KNOWN (t)
|| ! CLASSTYPE_INTERFACE_ONLY (t))
CLASSTYPE_VTABLE_NEEDS_WRITING (t) = 1;
}
reset_specialization();
/* Make a declaration for this class in its own scope. */
build_self_reference ();
return t;
}
/* Finish the member declaration given by DECL. */
void
finish_member_declaration (decl)
tree decl;
{
if (decl == error_mark_node || decl == NULL_TREE)
return;
if (decl == void_type_node)
/* The COMPONENT was a friend, not a member, and so there's
nothing for us to do. */
return;
/* We should see only one DECL at a time. */
my_friendly_assert (TREE_CHAIN (decl) == NULL_TREE, 0);
/* Set up access control for DECL. */
TREE_PRIVATE (decl)
= (current_access_specifier == access_private_node);
TREE_PROTECTED (decl)
= (current_access_specifier == access_protected_node);
if (TREE_CODE (decl) == TEMPLATE_DECL)
{
TREE_PRIVATE (DECL_TEMPLATE_RESULT (decl)) = TREE_PRIVATE (decl);
TREE_PROTECTED (DECL_TEMPLATE_RESULT (decl)) = TREE_PROTECTED (decl);
}
/* Mark the DECL as a member of the current class. */
DECL_CONTEXT (decl) = current_class_type;
/* Put functions on the TYPE_METHODS list and everything else on the
TYPE_FIELDS list. Note that these are built up in reverse order.
We reverse them (to obtain declaration order) in finish_struct. */
if (TREE_CODE (decl) == FUNCTION_DECL
|| DECL_FUNCTION_TEMPLATE_P (decl))
{
/* We also need to add this function to the
CLASSTYPE_METHOD_VEC. */
add_method (current_class_type, 0, decl);
TREE_CHAIN (decl) = TYPE_METHODS (current_class_type);
TYPE_METHODS (current_class_type) = decl;
}
else
{
/* All TYPE_DECLs go at the end of TYPE_FIELDS. Ordinary fields
go at the beginning. The reason is that lookup_field_1
searches the list in order, and we want a field name to
override a type name so that the "struct stat hack" will
work. In particular:
struct S { enum E { }; int E } s;
s.E = 3;
is legal. In addition, the FIELD_DECLs must be maintained in
declaration order so that class layout works as expected.
However, we don't need that order until class layout, so we
save a little time by putting FIELD_DECLs on in reverse order
here, and then reversing them in finish_struct_1. (We could
also keep a pointer to the correct insertion points in the
list.) */
if (TREE_CODE (decl) == TYPE_DECL)
TYPE_FIELDS (current_class_type)
= chainon (TYPE_FIELDS (current_class_type), decl);
else
{
TREE_CHAIN (decl) = TYPE_FIELDS (current_class_type);
TYPE_FIELDS (current_class_type) = decl;
}
/* Enter the DECL into the scope of the class. */
if (TREE_CODE (decl) != USING_DECL)
pushdecl_class_level (decl);
}
}
/* Finish a class definition T with the indicate ATTRIBUTES. If SEMI,
the definition is immediately followed by a semicolon. Returns the
type. */
tree
finish_class_definition (t, attributes, semi, pop_scope_p)
tree t;
tree attributes;
int semi;
int pop_scope_p;
{
/* finish_struct nukes this anyway; if finish_exception does too,
then it can go. */
if (semi)
note_got_semicolon (t);
/* If we got any attributes in class_head, xref_tag will stick them in
TREE_TYPE of the type. Grab them now. */
attributes = chainon (TREE_TYPE (t), attributes);
TREE_TYPE (t) = NULL_TREE;
if (TREE_CODE (t) == ENUMERAL_TYPE)
;
else
{
t = finish_struct (t, attributes);
if (semi)
note_got_semicolon (t);
}
if (! semi)
check_for_missing_semicolon (t);
if (pop_scope_p)
pop_scope (CP_DECL_CONTEXT (TYPE_MAIN_DECL (t)));
if (current_scope () == current_function_decl)
do_pending_defargs ();
return t;
}
/* Finish processing the default argument expressions cached during
the processing of a class definition. */
void
begin_inline_definitions ()
{
if (pending_inlines
&& current_scope () == current_function_decl)
do_pending_inlines ();
}
/* Finish processing the inline function definitions cached during the
processing of a class definition. */
void
finish_inline_definitions ()
{
if (current_class_type == NULL_TREE)
clear_inline_text_obstack ();
}
/* Finish processing the declaration of a member class template
TYPES whose template parameters are given by PARMS. */
tree
finish_member_class_template (types)
tree types;
{
tree t;
/* If there are declared, but undefined, partial specializations
mixed in with the typespecs they will not yet have passed through
maybe_process_partial_specialization, so we do that here. */
for (t = types; t != NULL_TREE; t = TREE_CHAIN (t))
if (IS_AGGR_TYPE_CODE (TREE_CODE (TREE_VALUE (t))))
maybe_process_partial_specialization (TREE_VALUE (t));
note_list_got_semicolon (types);
grok_x_components (types);
if (TYPE_CONTEXT (TREE_VALUE (types)) != current_class_type)
/* The component was in fact a friend declaration. We avoid
finish_member_template_decl performing certain checks by
unsetting TYPES. */
types = NULL_TREE;
finish_member_template_decl (types);
/* As with other component type declarations, we do
not store the new DECL on the list of
component_decls. */
return NULL_TREE;
}
/* Finish processsing a complete template declaration. The PARMS are
the template parameters. */
void
finish_template_decl (parms)
tree parms;
{
if (parms)
end_template_decl ();
else
end_specialization ();
}
/* Finish processing a a template-id (which names a type) of the form
NAME < ARGS >. Return the TYPE_DECL for the type named by the
template-id. If ENTERING_SCOPE is non-zero we are about to enter
the scope of template-id indicated. */
tree
finish_template_type (name, args, entering_scope)
tree name;
tree args;
int entering_scope;
{
tree decl;
decl = lookup_template_class (name, args,
NULL_TREE, NULL_TREE, entering_scope);
if (decl != error_mark_node)
decl = TYPE_STUB_DECL (decl);
return decl;
}
/* SR is a SCOPE_REF node. Enter the scope of SR, whether it is a
namespace scope or a class scope. */
void
enter_scope_of (sr)
tree sr;
{
tree scope = TREE_OPERAND (sr, 0);
if (TREE_CODE (scope) == NAMESPACE_DECL)
{
push_decl_namespace (scope);
TREE_COMPLEXITY (sr) = -1;
}
else if (scope != current_class_type)
{
if (TREE_CODE (scope) == TYPENAME_TYPE)
{
/* In a declarator for a template class member, the scope will
get here as an implicit typename, a TYPENAME_TYPE with a type. */
scope = TREE_TYPE (scope);
TREE_OPERAND (sr, 0) = scope;
}
push_nested_class (scope, 3);
TREE_COMPLEXITY (sr) = current_class_depth;
}
}
/* Finish processing a BASE_CLASS with the indicated ACCESS_SPECIFIER.
Return a TREE_LIST containing the ACCESS_SPECIFIER and the
BASE_CLASS, or NULL_TREE if an error occurred. The
ACCESSS_SPECIFIER is one of
access_{default,public,protected_private}[_virtual]_node.*/
tree
finish_base_specifier (access_specifier, base_class)
tree access_specifier;
tree base_class;
{
tree type;
tree result;
if (base_class == NULL_TREE)
{
error ("invalid base class");
type = error_mark_node;
}
else
type = TREE_TYPE (base_class);
if (! is_aggr_type (type, 1))
result = NULL_TREE;
else
result = build_tree_list (access_specifier, type);
return result;
}
/* Called when multiple declarators are processed. If that is not
premitted in this context, an error is issued. */
void
check_multiple_declarators ()
{
/* [temp]
In a template-declaration, explicit specialization, or explicit
instantiation the init-declarator-list in the declaration shall
contain at most one declarator.
We don't just use PROCESSING_TEMPLATE_DECL for the first
condition since that would disallow the perfectly legal code,
like `template <class T> struct S { int i, j; };'. */
tree scope = current_scope ();
if (scope && TREE_CODE (scope) == FUNCTION_DECL)
/* It's OK to write `template <class T> void f() { int i, j;}'. */
return;
if (PROCESSING_REAL_TEMPLATE_DECL_P ()
|| processing_explicit_instantiation
|| processing_specialization)
cp_error ("multiple declarators in template declaration");
}
tree
finish_typeof (expr)
tree expr;
{
if (processing_template_decl)
{
tree t;
t = make_aggr_type (TYPEOF_TYPE);
TYPE_FIELDS (t) = expr;
return t;
}
return TREE_TYPE (expr);
}
/* Create an empty statement tree rooted at T. */
void
begin_stmt_tree (t)
tree *t;
{
/* We create a trivial EXPR_STMT so that last_tree is never NULL in
what follows. We remove the extraneous statement in
finish_stmt_tree. */
*t = build_nt (EXPR_STMT, void_zero_node);
SET_LAST_STMT (*t);
last_expr_type = NULL_TREE;
}
/* Finish the statement tree rooted at T. */
void
finish_stmt_tree (t)
tree *t;
{
tree stmt;
/* Remove the fake extra statement added in begin_stmt_tree. */
stmt = TREE_CHAIN (*t);
*t = stmt;
SET_LAST_STMT (NULL_TREE);
if (cfun)
{
/* The line-number recorded in the outermost statement in a function
is the line number of the end of the function. */
STMT_LINENO (stmt) = lineno;
STMT_LINENO_FOR_FN_P (stmt) = 1;
}
}
/* We're about to expand T, a statement. Set up appropriate context
for the substitution. */
void
prep_stmt (t)
tree t;
{
if (!STMT_LINENO_FOR_FN_P (t))
lineno = STMT_LINENO (t);
stmts_are_full_exprs_p = STMT_IS_FULL_EXPR_P (t);
}
/* Some statements, like for-statements or if-statements, require a
condition. This condition can be a declaration. If T is such a
declaration it is processed, and an expression appropriate to use
as the condition is returned. Otherwise, T itself is returned. */
static tree
expand_cond (t)
tree t;
{
if (t && TREE_CODE (t) == TREE_LIST)
{
expand_stmt (TREE_PURPOSE (t));
return TREE_VALUE (t);
}
else
return t;
}
/* Generate RTL for the statement T, and its substatements, and any
other statements at its nesting level. */
tree
expand_stmt (t)
tree t;
{
tree rval = NULL_TREE;
while (t && t != error_mark_node)
{
int saved_stmts_are_full_exprs_p;
/* Assume we'll have nothing to return. */
rval = NULL_TREE;
/* Set up context appropriately for handling this statement. */
saved_stmts_are_full_exprs_p = stmts_are_full_exprs_p;
prep_stmt (t);
switch (TREE_CODE (t))
{
case RETURN_STMT:
finish_return_stmt (RETURN_EXPR (t));
break;
case EXPR_STMT:
finish_expr_stmt (EXPR_STMT_EXPR (t));
break;
case DECL_STMT:
{
tree decl;
emit_line_note (input_filename, lineno);
decl = DECL_STMT_DECL (t);
/* If this is a declaration for an automatic local
variable, initialize it. Note that we might also see a
declaration for a namespace-scope object (declared with
`extern'). We don't have to handle the initialization
of those objects here; they can only be declarations,
rather than definitions. */
if (TREE_CODE (decl) == VAR_DECL
&& !TREE_STATIC (decl)
&& !DECL_EXTERNAL (decl))
{
/* Let the back-end know about this variable. */
if (!ANON_AGGR_TYPE_P (TREE_TYPE (decl)))
emit_local_var (decl);
else
expand_anon_union_decl (decl, NULL_TREE,
DECL_ANON_UNION_ELEMS (decl));
}
else if (TREE_CODE (decl) == VAR_DECL && TREE_STATIC (decl))
{
if (DECL_ARTIFICIAL (decl) && ! TREE_USED (decl))
/* Do not emit unused decls. This is not just an
optimization. We really do not want to emit
__PRETTY_FUNCTION__ etc, if they're never used. */
DECL_IGNORED_P (decl) = 1;
else
make_rtl_for_local_static (decl);
}
}
break;
case CLEANUP_STMT:
finish_decl_cleanup (CLEANUP_DECL (t), CLEANUP_EXPR (t));
break;
case START_CATCH_STMT:
begin_catch_block (TREE_TYPE (t));
break;
case CTOR_STMT:
if (CTOR_BEGIN_P (t))
begin_protect_partials ();
else
/* After this point, any exceptions will cause the
destructor to be executed, so we no longer need to worry
about destroying the various subobjects ourselves. */
end_protect_partials ();
break;
case FOR_STMT:
{
tree tmp;
begin_for_stmt ();
expand_stmt (FOR_INIT_STMT (t));
finish_for_init_stmt (NULL_TREE);
finish_for_cond (expand_cond (FOR_COND (t)), NULL_TREE);
tmp = FOR_EXPR (t);
finish_for_expr (tmp, NULL_TREE);
expand_stmt (FOR_BODY (t));
finish_for_stmt (tmp, NULL_TREE);
}
break;
case WHILE_STMT:
{
begin_while_stmt ();
finish_while_stmt_cond (expand_cond (WHILE_COND (t)), NULL_TREE);
expand_stmt (WHILE_BODY (t));
finish_while_stmt (NULL_TREE);
}
break;
case DO_STMT:
{
begin_do_stmt ();
expand_stmt (DO_BODY (t));
finish_do_body (NULL_TREE);
finish_do_stmt (DO_COND (t), NULL_TREE);
}
break;
case IF_STMT:
begin_if_stmt ();
finish_if_stmt_cond (expand_cond (IF_COND (t)), NULL_TREE);
if (THEN_CLAUSE (t))
{
expand_stmt (THEN_CLAUSE (t));
finish_then_clause (NULL_TREE);
}
if (ELSE_CLAUSE (t))
{
begin_else_clause ();
expand_stmt (ELSE_CLAUSE (t));
finish_else_clause (NULL_TREE);
}
finish_if_stmt ();
break;
case COMPOUND_STMT:
begin_compound_stmt (COMPOUND_STMT_NO_SCOPE (t));
expand_stmt (COMPOUND_BODY (t));
rval = finish_compound_stmt (COMPOUND_STMT_NO_SCOPE (t),
NULL_TREE);
break;
case BREAK_STMT:
finish_break_stmt ();
break;
case CONTINUE_STMT:
finish_continue_stmt ();
break;
case SWITCH_STMT:
{
tree cond;
begin_switch_stmt ();
cond = expand_cond (SWITCH_COND (t));
finish_switch_cond (cond, NULL_TREE);
expand_stmt (SWITCH_BODY (t));
finish_switch_stmt (cond, NULL_TREE);
}
break;
case CASE_LABEL:
finish_case_label (CASE_LOW (t), CASE_HIGH (t));
break;
case LABEL_STMT:
expand_label (LABEL_STMT_LABEL (t));
break;
case GOTO_STMT:
finish_goto_stmt (GOTO_DESTINATION (t));
break;
case ASM_STMT:
finish_asm_stmt (ASM_CV_QUAL (t), ASM_STRING (t), ASM_OUTPUTS
(t), ASM_INPUTS (t), ASM_CLOBBERS (t));
break;
case TRY_BLOCK:
if (CLEANUP_P (t))
{
expand_eh_region_start ();
expand_stmt (TRY_STMTS (t));
finish_cleanup_try_block (NULL_TREE);
finish_cleanup (TRY_HANDLERS (t), NULL_TREE);
}
else
{
if (FN_TRY_BLOCK_P (t))
begin_function_try_block ();
else
begin_try_block ();
expand_stmt (TRY_STMTS (t));
if (FN_TRY_BLOCK_P (t))
{
finish_function_try_block (NULL_TREE);
expand_stmt (TRY_HANDLERS (t));
finish_function_handler_sequence (NULL_TREE);
}
else
{
finish_try_block (NULL_TREE);
expand_stmt (TRY_HANDLERS (t));
finish_handler_sequence (NULL_TREE);
}
}
break;
case HANDLER:
begin_handler ();
expand_stmt (HANDLER_BODY (t));
finish_handler (NULL_TREE, NULL_TREE);
break;
case SUBOBJECT:
finish_subobject (SUBOBJECT_CLEANUP (t));
break;
case SCOPE_STMT:
if (!SCOPE_NO_CLEANUPS_P (t))
{
if (SCOPE_BEGIN_P (t))
expand_start_bindings_and_block (2 * SCOPE_NULLIFIED_P (t),
SCOPE_STMT_BLOCK (t));
else if (SCOPE_END_P (t))
expand_end_bindings (NULL_TREE, !SCOPE_NULLIFIED_P (t),
SCOPE_PARTIAL_P (t));
}
else if (!SCOPE_NULLIFIED_P (t))
{
rtx note = emit_note (NULL,
(SCOPE_BEGIN_P (t)
? NOTE_INSN_BLOCK_BEG
: NOTE_INSN_BLOCK_END));
NOTE_BLOCK (note) = SCOPE_STMT_BLOCK (t);
}
break;
case RETURN_INIT:
/* Clear this out so that finish_named_return_value can set it
again. */
DECL_NAME (DECL_RESULT (current_function_decl)) = NULL_TREE;
finish_named_return_value (TREE_OPERAND (t, 0),
TREE_OPERAND (t, 1));
break;
default:
my_friendly_abort (19990810);
break;
}
/* Restore saved state. */
stmts_are_full_exprs_p = saved_stmts_are_full_exprs_p;
/* Go on to the next statement in this scope. */
t = TREE_CHAIN (t);
}
return rval;
}
/* Called from expand_body via walk_tree. Replace all AGGR_INIT_EXPRs
will equivalent CALL_EXPRs. */
static tree
simplify_aggr_init_exprs_r (tp, walk_subtrees, data)
tree *tp;
int *walk_subtrees ATTRIBUTE_UNUSED;
void *data ATTRIBUTE_UNUSED;
{
tree aggr_init_expr;
tree call_expr;
tree fn;
tree args;
tree slot;
tree type;
tree call_type;
int copy_from_buffer_p;
aggr_init_expr = *tp;
/* We don't need to walk into types; there's nothing in a type that
needs simplification. (And, furthermore, there are places we
actively don't want to go. For example, we don't want to wander
into the default arguments for a FUNCTION_DECL that appears in a
CALL_EXPR.) */
if (TYPE_P (aggr_init_expr))
{
*walk_subtrees = 0;
return NULL_TREE;
}
/* Only AGGR_INIT_EXPRs are interesting. */
else if (TREE_CODE (aggr_init_expr) != AGGR_INIT_EXPR)
return NULL_TREE;
/* Form an appropriate CALL_EXPR. */
fn = TREE_OPERAND (aggr_init_expr, 0);
args = TREE_OPERAND (aggr_init_expr, 1);
slot = TREE_OPERAND (aggr_init_expr, 2);
type = TREE_TYPE (aggr_init_expr);
call_type = type;
if (AGGR_INIT_VIA_CTOR_P (aggr_init_expr))
{
/* Replace the first argument with the address of the third
argument to the AGGR_INIT_EXPR. */
call_type = build_pointer_type (type);
mark_addressable (slot);
args = tree_cons (NULL_TREE, build1 (ADDR_EXPR, call_type, slot),
TREE_CHAIN (args));
}
call_expr = build (CALL_EXPR, call_type, fn, args, NULL_TREE);
TREE_SIDE_EFFECTS (call_expr) = 1;
/* If we're using the non-reentrant PCC calling convention, then we
need to copy the returned value out of the static buffer into the
SLOT. */
copy_from_buffer_p = 0;
#ifdef PCC_STATIC_STRUCT_RETURN
if (!AGGR_INIT_VIA_CTOR_P (aggr_init_expr) && aggregate_value_p (type))
{
int old_ac;
flag_access_control = 0;
call_expr = build_aggr_init (slot, call_expr, LOOKUP_ONLYCONVERTING);
flag_access_control = old_ac;
copy_from_buffer_p = 1;
}
#endif
/* If this AGGR_INIT_EXPR indicates the value returned by a
function, then we want to use the value of the initialized
location as the result. */
if (AGGR_INIT_VIA_CTOR_P (aggr_init_expr) || copy_from_buffer_p)
{
call_expr = build (COMPOUND_EXPR, type,
call_expr, slot);
TREE_SIDE_EFFECTS (call_expr) = 1;
}
/* Replace the AGGR_INIT_EXPR with the CALL_EXPR. */
TREE_CHAIN (call_expr) = TREE_CHAIN (aggr_init_expr);
*tp = call_expr;
/* Keep iterating. */
return NULL_TREE;
}
/* Generate RTL for FN. */
void
expand_body (fn)
tree fn;
{
int saved_lineno;
const char *saved_input_filename;
/* When the parser calls us after finishing the body of a template
function, we don't really want to expand the body. When we're
processing an in-class definition of an inline function,
PROCESSING_TEMPLATE_DECL will no longer be set here, so we have
to look at the function itself. */
if (processing_template_decl
|| (DECL_LANG_SPECIFIC (fn)
&& DECL_TEMPLATE_INFO (fn)
&& uses_template_parms (DECL_TI_ARGS (fn))))
{
/* Normally, collection only occurs in rest_of_compilation. So,
if we don't collect here, we never collect junk generated
during the processing of templates until we hit a
non-template function. */
ggc_collect ();
return;
}
/* Replace AGGR_INIT_EXPRs with appropriate CALL_EXPRs. */
walk_tree (&DECL_SAVED_TREE (fn), simplify_aggr_init_exprs_r, NULL);
/* If this is a constructor or destructor body, we have to clone it
under the new ABI. */
if (maybe_clone_body (fn))
{
/* We don't want to process FN again, so pretend we've written
it out, even though we haven't. */
TREE_ASM_WRITTEN (fn) = 1;
return;
}
/* There's no reason to do any of the work here if we're only doing
semantic analysis; this code just generates RTL. */
if (flag_syntax_only)
return;
/* If possible, avoid generating RTL for this function. Instead,
just record it as an inline function, and wait until end-of-file
to decide whether to write it out or not. */
if (/* We have to generate RTL if it's not an inline function. */
(DECL_INLINE (fn) || DECL_COMDAT (fn))
/* Or if we have to keep all inline functions anyhow. */
&& !flag_keep_inline_functions
/* Or if we actually have a reference to the function. */
&& !DECL_NEEDED_P (fn)
/* Or if this is a nested function. */
&& !decl_function_context (fn))
{
/* Give the function RTL now so that we can assign it to a
function pointer, etc. */
make_function_rtl (fn);
/* Set DECL_EXTERNAL so that assemble_external will be called as
necessary. We'll clear it again in finish_file. */
if (!DECL_EXTERNAL (fn))
{
DECL_NOT_REALLY_EXTERN (fn) = 1;
DECL_EXTERNAL (fn) = 1;
}
/* Remember this function. In finish_file we'll decide if
we actually need to write this function out. */
defer_fn (fn);
/* Let the back-end know that this funtion exists. */
note_deferral_of_defined_inline_function (fn);
return;
}
/* Optimize the body of the function before expanding it. */
optimize_function (fn);
/* Save the current file name and line number. When we expand the
body of the function, we'll set LINENO and INPUT_FILENAME so that
error-mesages come out in the right places. */
saved_lineno = lineno;
saved_input_filename = input_filename;
lineno = DECL_SOURCE_LINE (fn);
input_filename = DECL_SOURCE_FILE (fn);
start_function (NULL_TREE, fn, NULL_TREE, SF_PRE_PARSED | SF_EXPAND);
store_parm_decls ();
current_function_is_thunk = DECL_THUNK_P (fn);
/* We don't need to redeclare __FUNCTION__, __PRETTY_FUNCTION__, or
any of the other magic variables we set up when starting a
function body. */
current_function_name_declared = 1;
/* Expand the body. */
expand_stmt (DECL_SAVED_TREE (fn));
/* Statements should always be full-expressions at the outermost set
of curly braces for a function. */
my_friendly_assert (stmts_are_full_exprs_p, 19990831);
/* The outermost statement for a function contains the line number
recorded when we finished processing the function. */
lineno = STMT_LINENO (DECL_SAVED_TREE (fn));
/* Generate code for the function. */
finish_function (0);
/* If possible, obliterate the body of the function so that it can
be garbage collected. */
if (flag_dump_translation_unit)
/* Keep the body; we're going to dump it. */
;
else if (DECL_INLINE (fn) && flag_inline_trees)
/* We might need the body of this function so that we can expand
it inline somewhere else. */
;
else
/* We don't need the body; blow it away. */
DECL_SAVED_TREE (fn) = NULL_TREE;
/* And restore the current source position. */
lineno = saved_lineno;
input_filename = saved_input_filename;
}
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