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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- A T R E E --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2008, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT 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 distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
pragma Style_Checks (All_Checks);
-- Turn off subprogram ordering check for this package
-- WARNING: There is a C version of this package. Any changes to this source
-- file must be properly reflected in the file atree.h which is a C header
-- file containing equivalent definitions for use by gigi.
with Debug; use Debug;
with Nlists; use Nlists;
with Elists; use Elists;
with Output; use Output;
with Sinput; use Sinput;
with Tree_IO; use Tree_IO;
with GNAT.HTable; use GNAT.HTable;
package body Atree is
---------------
-- Debugging --
---------------
-- Suppose you find that node 12345 is messed up. You might want to find
-- the code that created that node. There are two ways to do this:
-- One way is to set a conditional breakpoint on New_Node_Debugging_Output
-- (nickname "nnd"):
-- break nnd if n = 12345
-- and run gnat1 again from the beginning.
-- The other way is to set a breakpoint near the beginning (e.g. on
-- gnat1drv), and run. Then set Watch_Node (nickname "ww") to 12345 in gdb:
-- ww := 12345
-- and set a breakpoint on New_Node_Breakpoint (nickname "nn"). Continue.
-- Either way, gnat1 will stop when node 12345 is created
-- The second method is faster
ww : Node_Id'Base := Node_Id'First - 1;
pragma Export (Ada, ww); -- trick the optimizer
Watch_Node : Node_Id'Base renames ww;
-- Node to "watch"; that is, whenever a node is created, we check if it is
-- equal to Watch_Node, and if so, call New_Node_Breakpoint. You have
-- presumably set a breakpoint on New_Node_Breakpoint. Note that the
-- initial value of Node_Id'First - 1 ensures that by default, no node
-- will be equal to Watch_Node.
procedure nn;
pragma Export (Ada, nn);
procedure New_Node_Breakpoint renames nn;
-- This doesn't do anything interesting; it's just for setting breakpoint
-- on as explained above.
procedure nnd (N : Node_Id);
pragma Export (Ada, nnd);
procedure New_Node_Debugging_Output (N : Node_Id) renames nnd;
-- For debugging. If debugging is turned on, New_Node and New_Entity call
-- this. If debug flag N is turned on, this prints out the new node.
--
-- If Node = Watch_Node, this prints out the new node and calls
-- New_Node_Breakpoint. Otherwise, does nothing.
-----------------------------
-- Local Objects and Types --
-----------------------------
Node_Count : Nat;
-- Count allocated nodes for Num_Nodes function
use Unchecked_Access;
-- We are allowed to see these from within our own body!
use Atree_Private_Part;
-- We are also allowed to see our private data structures!
function E_To_N is new Unchecked_Conversion (Entity_Kind, Node_Kind);
function N_To_E is new Unchecked_Conversion (Node_Kind, Entity_Kind);
-- Functions used to store Entity_Kind value in Nkind field
-- The following declarations are used to store flags 65-72 in the
-- Nkind field of the third component of an extended (entity) node.
type Flag_Byte is record
Flag65 : Boolean;
Flag66 : Boolean;
Flag67 : Boolean;
Flag68 : Boolean;
Flag69 : Boolean;
Flag70 : Boolean;
Flag71 : Boolean;
Flag72 : Boolean;
end record;
pragma Pack (Flag_Byte);
for Flag_Byte'Size use 8;
type Flag_Byte_Ptr is access all Flag_Byte;
type Node_Kind_Ptr is access all Node_Kind;
function To_Flag_Byte is new
Unchecked_Conversion (Node_Kind, Flag_Byte);
function To_Flag_Byte_Ptr is new
Unchecked_Conversion (Node_Kind_Ptr, Flag_Byte_Ptr);
-- The following declarations are used to store flags 73-96 and the
-- Convention field in the Field12 field of the third component of an
-- extended (Entity) node.
type Flag_Word is record
Flag73 : Boolean;
Flag74 : Boolean;
Flag75 : Boolean;
Flag76 : Boolean;
Flag77 : Boolean;
Flag78 : Boolean;
Flag79 : Boolean;
Flag80 : Boolean;
Flag81 : Boolean;
Flag82 : Boolean;
Flag83 : Boolean;
Flag84 : Boolean;
Flag85 : Boolean;
Flag86 : Boolean;
Flag87 : Boolean;
Flag88 : Boolean;
Flag89 : Boolean;
Flag90 : Boolean;
Flag91 : Boolean;
Flag92 : Boolean;
Flag93 : Boolean;
Flag94 : Boolean;
Flag95 : Boolean;
Flag96 : Boolean;
Convention : Convention_Id;
end record;
pragma Pack (Flag_Word);
for Flag_Word'Size use 32;
for Flag_Word'Alignment use 4;
type Flag_Word_Ptr is access all Flag_Word;
type Union_Id_Ptr is access all Union_Id;
function To_Flag_Word is new
Unchecked_Conversion (Union_Id, Flag_Word);
function To_Flag_Word_Ptr is new
Unchecked_Conversion (Union_Id_Ptr, Flag_Word_Ptr);
-- The following declarations are used to store flags 97-128 in the
-- Field12 field of the fourth component of an extended (entity) node.
type Flag_Word2 is record
Flag97 : Boolean;
Flag98 : Boolean;
Flag99 : Boolean;
Flag100 : Boolean;
Flag101 : Boolean;
Flag102 : Boolean;
Flag103 : Boolean;
Flag104 : Boolean;
Flag105 : Boolean;
Flag106 : Boolean;
Flag107 : Boolean;
Flag108 : Boolean;
Flag109 : Boolean;
Flag110 : Boolean;
Flag111 : Boolean;
Flag112 : Boolean;
Flag113 : Boolean;
Flag114 : Boolean;
Flag115 : Boolean;
Flag116 : Boolean;
Flag117 : Boolean;
Flag118 : Boolean;
Flag119 : Boolean;
Flag120 : Boolean;
Flag121 : Boolean;
Flag122 : Boolean;
Flag123 : Boolean;
Flag124 : Boolean;
Flag125 : Boolean;
Flag126 : Boolean;
Flag127 : Boolean;
Flag128 : Boolean;
end record;
pragma Pack (Flag_Word2);
for Flag_Word2'Size use 32;
for Flag_Word2'Alignment use 4;
type Flag_Word2_Ptr is access all Flag_Word2;
function To_Flag_Word2 is new
Unchecked_Conversion (Union_Id, Flag_Word2);
function To_Flag_Word2_Ptr is new
Unchecked_Conversion (Union_Id_Ptr, Flag_Word2_Ptr);
-- The following declarations are used to store flags 152-183 in the
-- Field11 field of the fourth component of an extended (entity) node.
type Flag_Word3 is record
Flag152 : Boolean;
Flag153 : Boolean;
Flag154 : Boolean;
Flag155 : Boolean;
Flag156 : Boolean;
Flag157 : Boolean;
Flag158 : Boolean;
Flag159 : Boolean;
Flag160 : Boolean;
Flag161 : Boolean;
Flag162 : Boolean;
Flag163 : Boolean;
Flag164 : Boolean;
Flag165 : Boolean;
Flag166 : Boolean;
Flag167 : Boolean;
Flag168 : Boolean;
Flag169 : Boolean;
Flag170 : Boolean;
Flag171 : Boolean;
Flag172 : Boolean;
Flag173 : Boolean;
Flag174 : Boolean;
Flag175 : Boolean;
Flag176 : Boolean;
Flag177 : Boolean;
Flag178 : Boolean;
Flag179 : Boolean;
Flag180 : Boolean;
Flag181 : Boolean;
Flag182 : Boolean;
Flag183 : Boolean;
end record;
pragma Pack (Flag_Word3);
for Flag_Word3'Size use 32;
for Flag_Word3'Alignment use 4;
type Flag_Word3_Ptr is access all Flag_Word3;
function To_Flag_Word3 is new
Unchecked_Conversion (Union_Id, Flag_Word3);
function To_Flag_Word3_Ptr is new
Unchecked_Conversion (Union_Id_Ptr, Flag_Word3_Ptr);
-- The following declarations are used to store flags 184-215 in the
-- Field11 field of the fifth component of an extended (entity) node.
type Flag_Word4 is record
Flag184 : Boolean;
Flag185 : Boolean;
Flag186 : Boolean;
Flag187 : Boolean;
Flag188 : Boolean;
Flag189 : Boolean;
Flag190 : Boolean;
Flag191 : Boolean;
Flag192 : Boolean;
Flag193 : Boolean;
Flag194 : Boolean;
Flag195 : Boolean;
Flag196 : Boolean;
Flag197 : Boolean;
Flag198 : Boolean;
Flag199 : Boolean;
Flag200 : Boolean;
Flag201 : Boolean;
Flag202 : Boolean;
Flag203 : Boolean;
Flag204 : Boolean;
Flag205 : Boolean;
Flag206 : Boolean;
Flag207 : Boolean;
Flag208 : Boolean;
Flag209 : Boolean;
Flag210 : Boolean;
Flag211 : Boolean;
Flag212 : Boolean;
Flag213 : Boolean;
Flag214 : Boolean;
Flag215 : Boolean;
end record;
pragma Pack (Flag_Word4);
for Flag_Word4'Size use 32;
for Flag_Word4'Alignment use 4;
type Flag_Word4_Ptr is access all Flag_Word4;
function To_Flag_Word4 is new
Unchecked_Conversion (Union_Id, Flag_Word4);
function To_Flag_Word4_Ptr is new
Unchecked_Conversion (Union_Id_Ptr, Flag_Word4_Ptr);
-- The following declarations are used to store flags 216-247 in the
-- Field12 field of the fifth component of an extended (entity) node.
type Flag_Word5 is record
Flag216 : Boolean;
Flag217 : Boolean;
Flag218 : Boolean;
Flag219 : Boolean;
Flag220 : Boolean;
Flag221 : Boolean;
Flag222 : Boolean;
Flag223 : Boolean;
Flag224 : Boolean;
Flag225 : Boolean;
Flag226 : Boolean;
Flag227 : Boolean;
Flag228 : Boolean;
Flag229 : Boolean;
Flag230 : Boolean;
Flag231 : Boolean;
Flag232 : Boolean;
Flag233 : Boolean;
Flag234 : Boolean;
Flag235 : Boolean;
Flag236 : Boolean;
Flag237 : Boolean;
Flag238 : Boolean;
Flag239 : Boolean;
Flag240 : Boolean;
Flag241 : Boolean;
Flag242 : Boolean;
Flag243 : Boolean;
Flag244 : Boolean;
Flag245 : Boolean;
Flag246 : Boolean;
Flag247 : Boolean;
end record;
pragma Pack (Flag_Word5);
for Flag_Word5'Size use 32;
for Flag_Word5'Alignment use 4;
type Flag_Word5_Ptr is access all Flag_Word5;
function To_Flag_Word5 is new
Unchecked_Conversion (Union_Id, Flag_Word5);
function To_Flag_Word5_Ptr is new
Unchecked_Conversion (Union_Id_Ptr, Flag_Word5_Ptr);
-- Default value used to initialize default nodes. Note that some of the
-- fields get overwritten, and in particular, Nkind always gets reset.
Default_Node : Node_Record := (
Is_Extension => False,
Pflag1 => False,
Pflag2 => False,
In_List => False,
Unused_1 => False,
Rewrite_Ins => False,
Analyzed => False,
Comes_From_Source => False, -- modified by Set_Comes_From_Source_Default
Error_Posted => False,
Flag4 => False,
Flag5 => False,
Flag6 => False,
Flag7 => False,
Flag8 => False,
Flag9 => False,
Flag10 => False,
Flag11 => False,
Flag12 => False,
Flag13 => False,
Flag14 => False,
Flag15 => False,
Flag16 => False,
Flag17 => False,
Flag18 => False,
Nkind => N_Unused_At_Start,
Sloc => No_Location,
Link => Empty_List_Or_Node,
Field1 => Empty_List_Or_Node,
Field2 => Empty_List_Or_Node,
Field3 => Empty_List_Or_Node,
Field4 => Empty_List_Or_Node,
Field5 => Empty_List_Or_Node);
-- Default value used to initialize node extensions (i.e. the second
-- and third and fourth components of an extended node). Note we are
-- cheating a bit here when it comes to Node12, which really holds
-- flags an (for the third component), the convention. But it works
-- because Empty, False, Convention_Ada, all happen to be all zero bits.
Default_Node_Extension : constant Node_Record := (
Is_Extension => True,
Pflag1 => False,
Pflag2 => False,
In_List => False,
Unused_1 => False,
Rewrite_Ins => False,
Analyzed => False,
Comes_From_Source => False,
Error_Posted => False,
Flag4 => False,
Flag5 => False,
Flag6 => False,
Flag7 => False,
Flag8 => False,
Flag9 => False,
Flag10 => False,
Flag11 => False,
Flag12 => False,
Flag13 => False,
Flag14 => False,
Flag15 => False,
Flag16 => False,
Flag17 => False,
Flag18 => False,
Nkind => E_To_N (E_Void),
Field6 => Empty_List_Or_Node,
Field7 => Empty_List_Or_Node,
Field8 => Empty_List_Or_Node,
Field9 => Empty_List_Or_Node,
Field10 => Empty_List_Or_Node,
Field11 => Empty_List_Or_Node,
Field12 => Empty_List_Or_Node);
--------------------------------------------------
-- Implementation of Tree Substitution Routines --
--------------------------------------------------
-- A separate table keeps track of the mapping between rewritten nodes
-- and their corresponding original tree nodes. Rewrite makes an entry
-- in this table for use by Original_Node. By default, if no call is
-- Rewrite, the entry in this table points to the original unwritten node.
-- Note: eventually, this should be a field in the Node directly, but
-- for now we do not want to disturb the efficiency of a power of 2
-- for the node size
package Orig_Nodes is new Table.Table (
Table_Component_Type => Node_Id,
Table_Index_Type => Node_Id'Base,
Table_Low_Bound => First_Node_Id,
Table_Initial => Alloc.Orig_Nodes_Initial,
Table_Increment => Alloc.Orig_Nodes_Increment,
Table_Name => "Orig_Nodes");
----------------------------------------
-- Global_Variables for New_Copy_Tree --
----------------------------------------
-- These global variables are used by New_Copy_Tree. See description
-- of the body of this subprogram for details. Global variables can be
-- safely used by New_Copy_Tree, since there is no case of a recursive
-- call from the processing inside New_Copy_Tree.
NCT_Hash_Threshhold : constant := 20;
-- If there are more than this number of pairs of entries in the
-- map, then Hash_Tables_Used will be set, and the hash tables will
-- be initialized and used for the searches.
NCT_Hash_Tables_Used : Boolean := False;
-- Set to True if hash tables are in use
NCT_Table_Entries : Nat;
-- Count entries in table to see if threshhold is reached
NCT_Hash_Table_Setup : Boolean := False;
-- Set to True if hash table contains data. We set this True if we
-- setup the hash table with data, and leave it set permanently
-- from then on, this is a signal that second and subsequent users
-- of the hash table must clear the old entries before reuse.
subtype NCT_Header_Num is Int range 0 .. 511;
-- Defines range of headers in hash tables (512 headers)
--------------------------
-- Paren_Count Handling --
--------------------------
-- As noted in the spec, the paren count in a sub-expression node has
-- four possible values 0,1,2, and 3. The value 3 really means 3 or more,
-- and we use an auxiliary serially scanned table to record the actual
-- count. A serial search is fine, only pathological programs will use
-- entries in this table. Normal programs won't use it at all.
type Paren_Count_Entry is record
Nod : Node_Id;
-- The node to which this count applies
Count : Nat range 3 .. Nat'Last;
-- The count of parentheses, which will be in the indicated range
end record;
package Paren_Counts is new Table.Table (
Table_Component_Type => Paren_Count_Entry,
Table_Index_Type => Int,
Table_Low_Bound => 0,
Table_Initial => 10,
Table_Increment => 200,
Table_Name => "Paren_Counts");
-----------------------
-- Local Subprograms --
-----------------------
procedure Fix_Parents (Ref_Node, Fix_Node : Node_Id);
-- Fixup parent pointers for the syntactic children of Fix_Node after
-- a copy, setting them to Fix_Node when they pointed to Ref_Node.
function Allocate_Initialize_Node
(Src : Node_Id;
With_Extension : Boolean) return Node_Id;
-- Allocate a new node or node extension. If Src is not empty,
-- the information for the newly-allocated node is copied from it.
------------------------------
-- Allocate_Initialize_Node --
------------------------------
function Allocate_Initialize_Node
(Src : Node_Id;
With_Extension : Boolean) return Node_Id
is
New_Id : Node_Id := Src;
Nod : Node_Record := Default_Node;
Ext1 : Node_Record := Default_Node_Extension;
Ext2 : Node_Record := Default_Node_Extension;
Ext3 : Node_Record := Default_Node_Extension;
Ext4 : Node_Record := Default_Node_Extension;
begin
if Present (Src) then
Nod := Nodes.Table (Src);
if Has_Extension (Src) then
Ext1 := Nodes.Table (Src + 1);
Ext2 := Nodes.Table (Src + 2);
Ext3 := Nodes.Table (Src + 3);
Ext4 := Nodes.Table (Src + 4);
end if;
end if;
if not (Present (Src)
and then not Has_Extension (Src)
and then With_Extension
and then Src = Nodes.Last)
then
-- We are allocating a new node, or extending a node
-- other than Nodes.Last.
Nodes.Append (Nod);
New_Id := Nodes.Last;
Orig_Nodes.Append (New_Id);
Node_Count := Node_Count + 1;
end if;
-- Specifically copy Paren_Count to deal with creating new table entry
-- if the parentheses count is at the maximum possible value already.
if Present (Src) and then Nkind (Src) in N_Subexpr then
Set_Paren_Count (New_Id, Paren_Count (Src));
end if;
-- Set extension nodes if required
if With_Extension then
Nodes.Append (Ext1);
Nodes.Append (Ext2);
Nodes.Append (Ext3);
Nodes.Append (Ext4);
end if;
Orig_Nodes.Set_Last (Nodes.Last);
Allocate_List_Tables (Nodes.Last);
return New_Id;
end Allocate_Initialize_Node;
--------------
-- Analyzed --
--------------
function Analyzed (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Analyzed;
end Analyzed;
--------------------------
-- Basic_Set_Convention --
--------------------------
procedure Basic_Set_Convention (E : Entity_Id; Val : Convention_Id) is
begin
pragma Assert (Nkind (E) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (E + 2).Field12'Unrestricted_Access)).Convention := Val;
end Basic_Set_Convention;
-----------------
-- Change_Node --
-----------------
procedure Change_Node (N : Node_Id; New_Node_Kind : Node_Kind) is
Save_Sloc : constant Source_Ptr := Sloc (N);
Save_In_List : constant Boolean := Nodes.Table (N).In_List;
Save_Link : constant Union_Id := Nodes.Table (N).Link;
Save_CFS : constant Boolean := Nodes.Table (N).Comes_From_Source;
Save_Posted : constant Boolean := Nodes.Table (N).Error_Posted;
Par_Count : Nat := 0;
begin
if Nkind (N) in N_Subexpr then
Par_Count := Paren_Count (N);
end if;
Nodes.Table (N) := Default_Node;
Nodes.Table (N).Sloc := Save_Sloc;
Nodes.Table (N).In_List := Save_In_List;
Nodes.Table (N).Link := Save_Link;
Nodes.Table (N).Comes_From_Source := Save_CFS;
Nodes.Table (N).Nkind := New_Node_Kind;
Nodes.Table (N).Error_Posted := Save_Posted;
if New_Node_Kind in N_Subexpr then
Set_Paren_Count (N, Par_Count);
end if;
end Change_Node;
-----------------------
-- Comes_From_Source --
-----------------------
function Comes_From_Source (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Comes_From_Source;
end Comes_From_Source;
----------------
-- Convention --
----------------
function Convention (E : Entity_Id) return Convention_Id is
begin
pragma Assert (Nkind (E) in N_Entity);
return To_Flag_Word (Nodes.Table (E + 2).Field12).Convention;
end Convention;
---------------
-- Copy_Node --
---------------
procedure Copy_Node (Source : Node_Id; Destination : Node_Id) is
Save_In_List : constant Boolean := Nodes.Table (Destination).In_List;
Save_Link : constant Union_Id := Nodes.Table (Destination).Link;
begin
Nodes.Table (Destination) := Nodes.Table (Source);
Nodes.Table (Destination).In_List := Save_In_List;
Nodes.Table (Destination).Link := Save_Link;
-- Specifically set Paren_Count to make sure auxiliary table entry
-- gets correctly made if the parentheses count is at the max value.
if Nkind (Destination) in N_Subexpr then
Set_Paren_Count (Destination, Paren_Count (Source));
end if;
-- Deal with copying extension nodes if present
if Has_Extension (Source) then
pragma Assert (Has_Extension (Destination));
Nodes.Table (Destination + 1) := Nodes.Table (Source + 1);
Nodes.Table (Destination + 2) := Nodes.Table (Source + 2);
Nodes.Table (Destination + 3) := Nodes.Table (Source + 3);
Nodes.Table (Destination + 4) := Nodes.Table (Source + 4);
else
pragma Assert (not Has_Extension (Source));
null;
end if;
end Copy_Node;
------------------------
-- Copy_Separate_Tree --
------------------------
function Copy_Separate_Tree (Source : Node_Id) return Node_Id is
New_Id : Node_Id;
function Copy_Entity (E : Entity_Id) return Entity_Id;
-- Copy Entity, copying only the Ekind and Chars fields
function Copy_List (List : List_Id) return List_Id;
-- Copy list
function Possible_Copy (Field : Union_Id) return Union_Id;
-- Given a field, returns a copy of the node or list if its parent
-- is the current source node, and otherwise returns the input
-----------------
-- Copy_Entity --
-----------------
function Copy_Entity (E : Entity_Id) return Entity_Id is
New_Ent : Entity_Id;
begin
case N_Entity (Nkind (E)) is
when N_Defining_Identifier =>
New_Ent := New_Entity (N_Defining_Identifier, Sloc (E));
when N_Defining_Character_Literal =>
New_Ent := New_Entity (N_Defining_Character_Literal, Sloc (E));
when N_Defining_Operator_Symbol =>
New_Ent := New_Entity (N_Defining_Operator_Symbol, Sloc (E));
end case;
Set_Chars (New_Ent, Chars (E));
return New_Ent;
end Copy_Entity;
---------------
-- Copy_List --
---------------
function Copy_List (List : List_Id) return List_Id is
NL : List_Id;
E : Node_Id;
begin
if List = No_List then
return No_List;
else
NL := New_List;
E := First (List);
while Present (E) loop
if Has_Extension (E) then
Append (Copy_Entity (E), NL);
else
Append (Copy_Separate_Tree (E), NL);
end if;
Next (E);
end loop;
return NL;
end if;
end Copy_List;
-------------------
-- Possible_Copy --
-------------------
function Possible_Copy (Field : Union_Id) return Union_Id is
New_N : Union_Id;
begin
if Field in Node_Range then
New_N := Union_Id (Copy_Separate_Tree (Node_Id (Field)));
if Parent (Node_Id (Field)) = Source then
Set_Parent (Node_Id (New_N), New_Id);
end if;
return New_N;
elsif Field in List_Range then
New_N := Union_Id (Copy_List (List_Id (Field)));
if Parent (List_Id (Field)) = Source then
Set_Parent (List_Id (New_N), New_Id);
end if;
return New_N;
else
return Field;
end if;
end Possible_Copy;
-- Start of processing for Copy_Separate_Tree
begin
if Source <= Empty_Or_Error then
return Source;
elsif Has_Extension (Source) then
return Copy_Entity (Source);
else
New_Id := New_Copy (Source);
-- Recursively copy descendents
Set_Field1 (New_Id, Possible_Copy (Field1 (New_Id)));
Set_Field2 (New_Id, Possible_Copy (Field2 (New_Id)));
Set_Field3 (New_Id, Possible_Copy (Field3 (New_Id)));
Set_Field4 (New_Id, Possible_Copy (Field4 (New_Id)));
Set_Field5 (New_Id, Possible_Copy (Field5 (New_Id)));
-- Set Entity field to Empty
-- Why is this done??? and why is it always right to do it???
if Nkind (New_Id) in N_Has_Entity
or else Nkind (New_Id) = N_Freeze_Entity
then
Set_Entity (New_Id, Empty);
end if;
-- All done, return copied node
return New_Id;
end if;
end Copy_Separate_Tree;
-----------
-- Ekind --
-----------
function Ekind (E : Entity_Id) return Entity_Kind is
begin
pragma Assert (Nkind (E) in N_Entity);
return N_To_E (Nodes.Table (E + 1).Nkind);
end Ekind;
------------------
-- Error_Posted --
------------------
function Error_Posted (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Error_Posted;
end Error_Posted;
-----------------------
-- Exchange_Entities --
-----------------------
procedure Exchange_Entities (E1 : Entity_Id; E2 : Entity_Id) is
Temp_Ent : Node_Record;
begin
pragma Assert (Has_Extension (E1)
and then Has_Extension (E2)
and then not Nodes.Table (E1).In_List
and then not Nodes.Table (E2).In_List);
-- Exchange the contents of the two entities
Temp_Ent := Nodes.Table (E1);
Nodes.Table (E1) := Nodes.Table (E2);
Nodes.Table (E2) := Temp_Ent;
Temp_Ent := Nodes.Table (E1 + 1);
Nodes.Table (E1 + 1) := Nodes.Table (E2 + 1);
Nodes.Table (E2 + 1) := Temp_Ent;
Temp_Ent := Nodes.Table (E1 + 2);
Nodes.Table (E1 + 2) := Nodes.Table (E2 + 2);
Nodes.Table (E2 + 2) := Temp_Ent;
Temp_Ent := Nodes.Table (E1 + 3);
Nodes.Table (E1 + 3) := Nodes.Table (E2 + 3);
Nodes.Table (E2 + 3) := Temp_Ent;
Temp_Ent := Nodes.Table (E1 + 4);
Nodes.Table (E1 + 4) := Nodes.Table (E2 + 4);
Nodes.Table (E2 + 4) := Temp_Ent;
-- That exchange exchanged the parent pointers as well, which is what
-- we want, but we need to patch up the defining identifier pointers
-- in the parent nodes (the child pointers) to match this switch
-- unless for Implicit types entities which have no parent, in which
-- case we don't do anything otherwise we won't be able to revert back
-- to the original situation.
-- Shouldn't this use Is_Itype instead of the Parent test
if Present (Parent (E1)) and then Present (Parent (E2)) then
Set_Defining_Identifier (Parent (E1), E1);
Set_Defining_Identifier (Parent (E2), E2);
end if;
end Exchange_Entities;
-----------------
-- Extend_Node --
-----------------
function Extend_Node (Node : Node_Id) return Entity_Id is
Result : Entity_Id;
procedure Debug_Extend_Node;
pragma Inline (Debug_Extend_Node);
-- Debug routine for debug flag N
-----------------------
-- Debug_Extend_Node --
-----------------------
procedure Debug_Extend_Node is
begin
if Debug_Flag_N then
Write_Str ("Extend node ");
Write_Int (Int (Node));
if Result = Node then
Write_Str (" in place");
else
Write_Str (" copied to ");
Write_Int (Int (Result));
end if;
-- Write_Eol;
end if;
end Debug_Extend_Node;
-- Start of processing for Extend_Node
begin
pragma Assert (not (Has_Extension (Node)));
Result := Allocate_Initialize_Node (Node, With_Extension => True);
pragma Debug (Debug_Extend_Node);
return Result;
end Extend_Node;
-----------------
-- Fix_Parents --
-----------------
procedure Fix_Parents (Ref_Node, Fix_Node : Node_Id) is
procedure Fix_Parent (Field : Union_Id);
-- Fixup one parent pointer. Field is checked to see if it points to
-- a node, list, or element list that has a parent that points to
-- Ref_Node. If so, the parent is reset to point to Fix_Node.
----------------
-- Fix_Parent --
----------------
procedure Fix_Parent (Field : Union_Id) is
begin
-- Fix parent of node that is referenced by Field. Note that we must
-- exclude the case where the node is a member of a list, because in
-- this case the parent is the parent of the list.
if Field in Node_Range
and then Present (Node_Id (Field))
and then not Nodes.Table (Node_Id (Field)).In_List
and then Parent (Node_Id (Field)) = Ref_Node
then
Set_Parent (Node_Id (Field), Fix_Node);
-- Fix parent of list that is referenced by Field
elsif Field in List_Range
and then Present (List_Id (Field))
and then Parent (List_Id (Field)) = Ref_Node
then
Set_Parent (List_Id (Field), Fix_Node);
end if;
end Fix_Parent;
-- Start of processing for Fix_Parents
begin
Fix_Parent (Field1 (Fix_Node));
Fix_Parent (Field2 (Fix_Node));
Fix_Parent (Field3 (Fix_Node));
Fix_Parent (Field4 (Fix_Node));
Fix_Parent (Field5 (Fix_Node));
end Fix_Parents;
-----------------------------------
-- Get_Comes_From_Source_Default --
-----------------------------------
function Get_Comes_From_Source_Default return Boolean is
begin
return Default_Node.Comes_From_Source;
end Get_Comes_From_Source_Default;
-------------------
-- Has_Extension --
-------------------
function Has_Extension (N : Node_Id) return Boolean is
begin
return N < Nodes.Last and then Nodes.Table (N + 1).Is_Extension;
end Has_Extension;
----------------
-- Initialize --
----------------
procedure Initialize is
Dummy : Node_Id;
pragma Warnings (Off, Dummy);
begin
Node_Count := 0;
Atree_Private_Part.Nodes.Init;
Orig_Nodes.Init;
Paren_Counts.Init;
-- Allocate Empty node
Dummy := New_Node (N_Empty, No_Location);
Set_Name1 (Empty, No_Name);
-- Allocate Error node, and set Error_Posted, since we certainly
-- only generate an Error node if we do post some kind of error!
Dummy := New_Node (N_Error, No_Location);
Set_Name1 (Error, Error_Name);
Set_Error_Posted (Error, True);
-- Set global variables for New_Copy_Tree
NCT_Hash_Tables_Used := False;
NCT_Table_Entries := 0;
NCT_Hash_Table_Setup := False;
end Initialize;
--------------------------
-- Is_Rewrite_Insertion --
--------------------------
function Is_Rewrite_Insertion (Node : Node_Id) return Boolean is
begin
return Nodes.Table (Node).Rewrite_Ins;
end Is_Rewrite_Insertion;
-----------------------------
-- Is_Rewrite_Substitution --
-----------------------------
function Is_Rewrite_Substitution (Node : Node_Id) return Boolean is
begin
return Orig_Nodes.Table (Node) /= Node;
end Is_Rewrite_Substitution;
------------------
-- Last_Node_Id --
------------------
function Last_Node_Id return Node_Id is
begin
return Nodes.Last;
end Last_Node_Id;
----------
-- Lock --
----------
procedure Lock is
begin
Nodes.Locked := True;
Orig_Nodes.Locked := True;
Nodes.Release;
Orig_Nodes.Release;
end Lock;
----------------------------
-- Mark_Rewrite_Insertion --
----------------------------
procedure Mark_Rewrite_Insertion (New_Node : Node_Id) is
begin
Nodes.Table (New_Node).Rewrite_Ins := True;
end Mark_Rewrite_Insertion;
--------------
-- New_Copy --
--------------
function New_Copy (Source : Node_Id) return Node_Id is
New_Id : Node_Id := Source;
begin
if Source > Empty_Or_Error then
New_Id := Allocate_Initialize_Node (Source, Has_Extension (Source));
Nodes.Table (New_Id).Link := Empty_List_Or_Node;
Nodes.Table (New_Id).In_List := False;
-- If the original is marked as a rewrite insertion, then unmark
-- the copy, since we inserted the original, not the copy.
Nodes.Table (New_Id).Rewrite_Ins := False;
pragma Debug (New_Node_Debugging_Output (New_Id));
end if;
return New_Id;
end New_Copy;
-------------------
-- New_Copy_Tree --
-------------------
-- Our approach here requires a two pass traversal of the tree. The
-- first pass visits all nodes that eventually will be copied looking
-- for defining Itypes. If any defining Itypes are found, then they are
-- copied, and an entry is added to the replacement map. In the second
-- phase, the tree is copied, using the replacement map to replace any
-- Itype references within the copied tree.
-- The following hash tables are used if the Map supplied has more
-- than hash threshhold entries to speed up access to the map. If
-- there are fewer entries, then the map is searched sequentially
-- (because setting up a hash table for only a few entries takes
-- more time than it saves.
function New_Copy_Hash (E : Entity_Id) return NCT_Header_Num;
-- Hash function used for hash operations
-------------------
-- New_Copy_Hash --
-------------------
function New_Copy_Hash (E : Entity_Id) return NCT_Header_Num is
begin
return Nat (E) mod (NCT_Header_Num'Last + 1);
end New_Copy_Hash;
---------------
-- NCT_Assoc --
---------------
-- The hash table NCT_Assoc associates old entities in the table
-- with their corresponding new entities (i.e. the pairs of entries
-- presented in the original Map argument are Key-Element pairs).
package NCT_Assoc is new Simple_HTable (
Header_Num => NCT_Header_Num,
Element => Entity_Id,
No_Element => Empty,
Key => Entity_Id,
Hash => New_Copy_Hash,
Equal => Types."=");
---------------------
-- NCT_Itype_Assoc --
---------------------
-- The hash table NCT_Itype_Assoc contains entries only for those
-- old nodes which have a non-empty Associated_Node_For_Itype set.
-- The key is the associated node, and the element is the new node
-- itself (NOT the associated node for the new node).
package NCT_Itype_Assoc is new Simple_HTable (
Header_Num => NCT_Header_Num,
Element => Entity_Id,
No_Element => Empty,
Key => Entity_Id,
Hash => New_Copy_Hash,
Equal => Types."=");
-- Start of processing for New_Copy_Tree function
function New_Copy_Tree
(Source : Node_Id;
Map : Elist_Id := No_Elist;
New_Sloc : Source_Ptr := No_Location;
New_Scope : Entity_Id := Empty) return Node_Id
is
Actual_Map : Elist_Id := Map;
-- This is the actual map for the copy. It is initialized with the
-- given elements, and then enlarged as required for Itypes that are
-- copied during the first phase of the copy operation. The visit
-- procedures add elements to this map as Itypes are encountered.
-- The reason we cannot use Map directly, is that it may well be
-- (and normally is) initialized to No_Elist, and if we have mapped
-- entities, we have to reset it to point to a real Elist.
function Assoc (N : Node_Or_Entity_Id) return Node_Id;
-- Called during second phase to map entities into their corresponding
-- copies using Actual_Map. If the argument is not an entity, or is not
-- in Actual_Map, then it is returned unchanged.
procedure Build_NCT_Hash_Tables;
-- Builds hash tables (number of elements >= threshold value)
function Copy_Elist_With_Replacement
(Old_Elist : Elist_Id) return Elist_Id;
-- Called during second phase to copy element list doing replacements
procedure Copy_Itype_With_Replacement (New_Itype : Entity_Id);
-- Called during the second phase to process a copied Itype. The actual
-- copy happened during the first phase (so that we could make the entry
-- in the mapping), but we still have to deal with the descendents of
-- the copied Itype and copy them where necessary.
function Copy_List_With_Replacement (Old_List : List_Id) return List_Id;
-- Called during second phase to copy list doing replacements
function Copy_Node_With_Replacement (Old_Node : Node_Id) return Node_Id;
-- Called during second phase to copy node doing replacements
procedure Visit_Elist (E : Elist_Id);
-- Called during first phase to visit all elements of an Elist
procedure Visit_Field (F : Union_Id; N : Node_Id);
-- Visit a single field, recursing to call Visit_Node or Visit_List
-- if the field is a syntactic descendent of the current node (i.e.
-- its parent is Node N).
procedure Visit_Itype (Old_Itype : Entity_Id);
-- Called during first phase to visit subsidiary fields of a defining
-- Itype, and also create a copy and make an entry in the replacement
-- map for the new copy.
procedure Visit_List (L : List_Id);
-- Called during first phase to visit all elements of a List
procedure Visit_Node (N : Node_Or_Entity_Id);
-- Called during first phase to visit a node and all its subtrees
-----------
-- Assoc --
-----------
function Assoc (N : Node_Or_Entity_Id) return Node_Id is
E : Elmt_Id;
Ent : Entity_Id;
begin
if not Has_Extension (N) or else No (Actual_Map) then
return N;
elsif NCT_Hash_Tables_Used then
Ent := NCT_Assoc.Get (Entity_Id (N));
if Present (Ent) then
return Ent;
else
return N;
end if;
-- No hash table used, do serial search
else
E := First_Elmt (Actual_Map);
while Present (E) loop
if Node (E) = N then
return Node (Next_Elmt (E));
else
E := Next_Elmt (Next_Elmt (E));
end if;
end loop;
end if;
return N;
end Assoc;
---------------------------
-- Build_NCT_Hash_Tables --
---------------------------
procedure Build_NCT_Hash_Tables is
Elmt : Elmt_Id;
Ent : Entity_Id;
begin
if NCT_Hash_Table_Setup then
NCT_Assoc.Reset;
NCT_Itype_Assoc.Reset;
end if;
Elmt := First_Elmt (Actual_Map);
while Present (Elmt) loop
Ent := Node (Elmt);
-- Get new entity, and associate old and new
Next_Elmt (Elmt);
NCT_Assoc.Set (Ent, Node (Elmt));
if Is_Type (Ent) then
declare
Anode : constant Entity_Id :=
Associated_Node_For_Itype (Ent);
begin
if Present (Anode) then
-- Enter a link between the associated node of the
-- old Itype and the new Itype, for updating later
-- when node is copied.
NCT_Itype_Assoc.Set (Anode, Node (Elmt));
end if;
end;
end if;
Next_Elmt (Elmt);
end loop;
NCT_Hash_Tables_Used := True;
NCT_Hash_Table_Setup := True;
end Build_NCT_Hash_Tables;
---------------------------------
-- Copy_Elist_With_Replacement --
---------------------------------
function Copy_Elist_With_Replacement
(Old_Elist : Elist_Id) return Elist_Id
is
M : Elmt_Id;
New_Elist : Elist_Id;
begin
if No (Old_Elist) then
return No_Elist;
else
New_Elist := New_Elmt_List;
M := First_Elmt (Old_Elist);
while Present (M) loop
Append_Elmt (Copy_Node_With_Replacement (Node (M)), New_Elist);
Next_Elmt (M);
end loop;
end if;
return New_Elist;
end Copy_Elist_With_Replacement;
---------------------------------
-- Copy_Itype_With_Replacement --
---------------------------------
-- This routine exactly parallels its phase one analog Visit_Itype,
-- and like that routine, knows far too many semantic details about
-- the descendents of Itypes and whether they need copying or not.
procedure Copy_Itype_With_Replacement (New_Itype : Entity_Id) is
begin
-- Translate Next_Entity, Scope and Etype fields, in case they
-- reference entities that have been mapped into copies.
Set_Next_Entity (New_Itype, Assoc (Next_Entity (New_Itype)));
Set_Etype (New_Itype, Assoc (Etype (New_Itype)));
if Present (New_Scope) then
Set_Scope (New_Itype, New_Scope);
else
Set_Scope (New_Itype, Assoc (Scope (New_Itype)));
end if;
-- Copy referenced fields
if Is_Discrete_Type (New_Itype) then
Set_Scalar_Range (New_Itype,
Copy_Node_With_Replacement (Scalar_Range (New_Itype)));
elsif Has_Discriminants (Base_Type (New_Itype)) then
Set_Discriminant_Constraint (New_Itype,
Copy_Elist_With_Replacement
(Discriminant_Constraint (New_Itype)));
elsif Is_Array_Type (New_Itype) then
if Present (First_Index (New_Itype)) then
Set_First_Index (New_Itype,
First (Copy_List_With_Replacement
(List_Containing (First_Index (New_Itype)))));
end if;
if Is_Packed (New_Itype) then
Set_Packed_Array_Type (New_Itype,
Copy_Node_With_Replacement
(Packed_Array_Type (New_Itype)));
end if;
end if;
end Copy_Itype_With_Replacement;
--------------------------------
-- Copy_List_With_Replacement --
--------------------------------
function Copy_List_With_Replacement
(Old_List : List_Id) return List_Id
is
New_List : List_Id;
E : Node_Id;
begin
if Old_List = No_List then
return No_List;
else
New_List := Empty_List;
E := First (Old_List);
while Present (E) loop
Append (Copy_Node_With_Replacement (E), New_List);
Next (E);
end loop;
return New_List;
end if;
end Copy_List_With_Replacement;
--------------------------------
-- Copy_Node_With_Replacement --
--------------------------------
function Copy_Node_With_Replacement
(Old_Node : Node_Id) return Node_Id
is
New_Node : Node_Id;
procedure Adjust_Named_Associations
(Old_Node : Node_Id;
New_Node : Node_Id);
-- If a call node has named associations, these are chained through
-- the First_Named_Actual, Next_Named_Actual links. These must be
-- propagated separately to the new parameter list, because these
-- are not syntactic fields.
function Copy_Field_With_Replacement
(Field : Union_Id) return Union_Id;
-- Given Field, which is a field of Old_Node, return a copy of it
-- if it is a syntactic field (i.e. its parent is Node), setting
-- the parent of the copy to poit to New_Node. Otherwise returns
-- the field (possibly mapped if it is an entity).
-------------------------------
-- Adjust_Named_Associations --
-------------------------------
procedure Adjust_Named_Associations
(Old_Node : Node_Id;
New_Node : Node_Id)
is
Old_E : Node_Id;
New_E : Node_Id;
Old_Next : Node_Id;
New_Next : Node_Id;
begin
Old_E := First (Parameter_Associations (Old_Node));
New_E := First (Parameter_Associations (New_Node));
while Present (Old_E) loop
if Nkind (Old_E) = N_Parameter_Association
and then Present (Next_Named_Actual (Old_E))
then
if First_Named_Actual (Old_Node)
= Explicit_Actual_Parameter (Old_E)
then
Set_First_Named_Actual
(New_Node, Explicit_Actual_Parameter (New_E));
end if;
-- Now scan parameter list from the beginning,to locate
-- next named actual, which can be out of order.
Old_Next := First (Parameter_Associations (Old_Node));
New_Next := First (Parameter_Associations (New_Node));
while Nkind (Old_Next) /= N_Parameter_Association
or else Explicit_Actual_Parameter (Old_Next)
/= Next_Named_Actual (Old_E)
loop
Next (Old_Next);
Next (New_Next);
end loop;
Set_Next_Named_Actual
(New_E, Explicit_Actual_Parameter (New_Next));
end if;
Next (Old_E);
Next (New_E);
end loop;
end Adjust_Named_Associations;
---------------------------------
-- Copy_Field_With_Replacement --
---------------------------------
function Copy_Field_With_Replacement
(Field : Union_Id) return Union_Id
is
begin
if Field = Union_Id (Empty) then
return Field;
elsif Field in Node_Range then
declare
Old_N : constant Node_Id := Node_Id (Field);
New_N : Node_Id;
begin
-- If syntactic field, as indicated by the parent pointer
-- being set, then copy the referenced node recursively.
if Parent (Old_N) = Old_Node then
New_N := Copy_Node_With_Replacement (Old_N);
if New_N /= Old_N then
Set_Parent (New_N, New_Node);
end if;
-- For semantic fields, update possible entity reference
-- from the replacement map.
else
New_N := Assoc (Old_N);
end if;
return Union_Id (New_N);
end;
elsif Field in List_Range then
declare
Old_L : constant List_Id := List_Id (Field);
New_L : List_Id;
begin
-- If syntactic field, as indicated by the parent pointer,
-- then recursively copy the entire referenced list.
if Parent (Old_L) = Old_Node then
New_L := Copy_List_With_Replacement (Old_L);
Set_Parent (New_L, New_Node);
-- For semantic list, just returned unchanged
else
New_L := Old_L;
end if;
return Union_Id (New_L);
end;
-- Anything other than a list or a node is returned unchanged
else
return Field;
end if;
end Copy_Field_With_Replacement;
-- Start of processing for Copy_Node_With_Replacement
begin
if Old_Node <= Empty_Or_Error then
return Old_Node;
elsif Has_Extension (Old_Node) then
return Assoc (Old_Node);
else
New_Node := New_Copy (Old_Node);
-- If the node we are copying is the associated node of a
-- previously copied Itype, then adjust the associated node
-- of the copy of that Itype accordingly.
if Present (Actual_Map) then
declare
E : Elmt_Id;
Ent : Entity_Id;
begin
-- Case of hash table used
if NCT_Hash_Tables_Used then
Ent := NCT_Itype_Assoc.Get (Old_Node);
if Present (Ent) then
Set_Associated_Node_For_Itype (Ent, New_Node);
end if;
-- Case of no hash table used
else
E := First_Elmt (Actual_Map);
while Present (E) loop
if Is_Itype (Node (E))
and then
Old_Node = Associated_Node_For_Itype (Node (E))
then
Set_Associated_Node_For_Itype
(Node (Next_Elmt (E)), New_Node);
end if;
E := Next_Elmt (Next_Elmt (E));
end loop;
end if;
end;
end if;
-- Recursively copy descendents
Set_Field1
(New_Node, Copy_Field_With_Replacement (Field1 (New_Node)));
Set_Field2
(New_Node, Copy_Field_With_Replacement (Field2 (New_Node)));
Set_Field3
(New_Node, Copy_Field_With_Replacement (Field3 (New_Node)));
Set_Field4
(New_Node, Copy_Field_With_Replacement (Field4 (New_Node)));
Set_Field5
(New_Node, Copy_Field_With_Replacement (Field5 (New_Node)));
-- Adjust Sloc of new node if necessary
if New_Sloc /= No_Location then
Set_Sloc (New_Node, New_Sloc);
-- If we adjust the Sloc, then we are essentially making
-- a completely new node, so the Comes_From_Source flag
-- should be reset to the proper default value.
Nodes.Table (New_Node).Comes_From_Source :=
Default_Node.Comes_From_Source;
end if;
-- If the node is call and has named associations,
-- set the corresponding links in the copy.
if (Nkind (Old_Node) = N_Function_Call
or else Nkind (Old_Node) = N_Entry_Call_Statement
or else
Nkind (Old_Node) = N_Procedure_Call_Statement)
and then Present (First_Named_Actual (Old_Node))
then
Adjust_Named_Associations (Old_Node, New_Node);
end if;
-- Reset First_Real_Statement for Handled_Sequence_Of_Statements.
-- The replacement mechanism applies to entities, and is not used
-- here. Eventually we may need a more general graph-copying
-- routine. For now, do a sequential search to find desired node.
if Nkind (Old_Node) = N_Handled_Sequence_Of_Statements
and then Present (First_Real_Statement (Old_Node))
then
declare
Old_F : constant Node_Id := First_Real_Statement (Old_Node);
N1, N2 : Node_Id;
begin
N1 := First (Statements (Old_Node));
N2 := First (Statements (New_Node));
while N1 /= Old_F loop
Next (N1);
Next (N2);
end loop;
Set_First_Real_Statement (New_Node, N2);
end;
end if;
end if;
-- All done, return copied node
return New_Node;
end Copy_Node_With_Replacement;
-----------------
-- Visit_Elist --
-----------------
procedure Visit_Elist (E : Elist_Id) is
Elmt : Elmt_Id;
begin
if Present (E) then
Elmt := First_Elmt (E);
while Elmt /= No_Elmt loop
Visit_Node (Node (Elmt));
Next_Elmt (Elmt);
end loop;
end if;
end Visit_Elist;
-----------------
-- Visit_Field --
-----------------
procedure Visit_Field (F : Union_Id; N : Node_Id) is
begin
if F = Union_Id (Empty) then
return;
elsif F in Node_Range then
-- Copy node if it is syntactic, i.e. its parent pointer is
-- set to point to the field that referenced it (certain
-- Itypes will also meet this criterion, which is fine, since
-- these are clearly Itypes that do need to be copied, since
-- we are copying their parent.)
if Parent (Node_Id (F)) = N then
Visit_Node (Node_Id (F));
return;
-- Another case, if we are pointing to an Itype, then we want
-- to copy it if its associated node is somewhere in the tree
-- being copied.
-- Note: the exclusion of self-referential copies is just an
-- optimization, since the search of the already copied list
-- would catch it, but it is a common case (Etype pointing
-- to itself for an Itype that is a base type).
elsif Has_Extension (Node_Id (F))
and then Is_Itype (Entity_Id (F))
and then Node_Id (F) /= N
then
declare
P : Node_Id;
begin
P := Associated_Node_For_Itype (Node_Id (F));
while Present (P) loop
if P = Source then
Visit_Node (Node_Id (F));
return;
else
P := Parent (P);
end if;
end loop;
-- An Itype whose parent is not being copied definitely
-- should NOT be copied, since it does not belong in any
-- sense to the copied subtree.
return;
end;
end if;
elsif F in List_Range
and then Parent (List_Id (F)) = N
then
Visit_List (List_Id (F));
return;
end if;
end Visit_Field;
-----------------
-- Visit_Itype --
-----------------
-- Note: we are relying on far too much semantic knowledge in this
-- routine, it really should just do a blind replacement of all
-- fields, or at least a more blind replacement. For example, we
-- do not deal with corresponding record types, and that works
-- because we have no Itypes of task types, but nowhere is there
-- a guarantee that this will always be the case. ???
procedure Visit_Itype (Old_Itype : Entity_Id) is
New_Itype : Entity_Id;
E : Elmt_Id;
Ent : Entity_Id;
begin
-- Itypes that describe the designated type of access to subprograms
-- have the structure of subprogram declarations, with signatures,
-- etc. Either we duplicate the signatures completely, or choose to
-- share such itypes, which is fine because their elaboration will
-- have no side effects. In any case, this is additional semantic
-- information that seems awkward to have in atree.
if Ekind (Old_Itype) = E_Subprogram_Type then
return;
end if;
New_Itype := New_Copy (Old_Itype);
-- The new Itype has all the attributes of the old one, and
-- we just copy the contents of the entity. However, the back-end
-- needs different names for debugging purposes, so we create a
-- new internal name by appending the letter 'c' (copy) to the
-- name of the original.
Get_Name_String (Chars (Old_Itype));
Add_Char_To_Name_Buffer ('c');
Set_Chars (New_Itype, Name_Enter);
-- If our associated node is an entity that has already been copied,
-- then set the associated node of the copy to point to the right
-- copy. If we have copied an Itype that is itself the associated
-- node of some previously copied Itype, then we set the right
-- pointer in the other direction.
if Present (Actual_Map) then
-- Case of hash tables used
if NCT_Hash_Tables_Used then
Ent := NCT_Assoc.Get (Associated_Node_For_Itype (Old_Itype));
if Present (Ent) then
Set_Associated_Node_For_Itype (New_Itype, Ent);
end if;
Ent := NCT_Itype_Assoc.Get (Old_Itype);
if Present (Ent) then
Set_Associated_Node_For_Itype (Ent, New_Itype);
-- If the hash table has no association for this Itype and
-- its associated node, enter one now.
else
NCT_Itype_Assoc.Set
(Associated_Node_For_Itype (Old_Itype), New_Itype);
end if;
-- Case of hash tables not used
else
E := First_Elmt (Actual_Map);
while Present (E) loop
if Associated_Node_For_Itype (Old_Itype) = Node (E) then
Set_Associated_Node_For_Itype
(New_Itype, Node (Next_Elmt (E)));
end if;
if Is_Type (Node (E))
and then
Old_Itype = Associated_Node_For_Itype (Node (E))
then
Set_Associated_Node_For_Itype
(Node (Next_Elmt (E)), New_Itype);
end if;
E := Next_Elmt (Next_Elmt (E));
end loop;
end if;
end if;
if Present (Freeze_Node (New_Itype)) then
Set_Is_Frozen (New_Itype, False);
Set_Freeze_Node (New_Itype, Empty);
end if;
-- Add new association to map
if No (Actual_Map) then
Actual_Map := New_Elmt_List;
end if;
Append_Elmt (Old_Itype, Actual_Map);
Append_Elmt (New_Itype, Actual_Map);
if NCT_Hash_Tables_Used then
NCT_Assoc.Set (Old_Itype, New_Itype);
else
NCT_Table_Entries := NCT_Table_Entries + 1;
if NCT_Table_Entries > NCT_Hash_Threshhold then
Build_NCT_Hash_Tables;
end if;
end if;
-- If a record subtype is simply copied, the entity list will be
-- shared. Thus cloned_Subtype must be set to indicate the sharing.
if Ekind (Old_Itype) = E_Record_Subtype
or else Ekind (Old_Itype) = E_Class_Wide_Subtype
then
Set_Cloned_Subtype (New_Itype, Old_Itype);
end if;
-- Visit descendents that eventually get copied
Visit_Field (Union_Id (Etype (Old_Itype)), Old_Itype);
if Is_Discrete_Type (Old_Itype) then
Visit_Field (Union_Id (Scalar_Range (Old_Itype)), Old_Itype);
elsif Has_Discriminants (Base_Type (Old_Itype)) then
-- ??? This should involve call to Visit_Field
Visit_Elist (Discriminant_Constraint (Old_Itype));
elsif Is_Array_Type (Old_Itype) then
if Present (First_Index (Old_Itype)) then
Visit_Field (Union_Id (List_Containing
(First_Index (Old_Itype))),
Old_Itype);
end if;
if Is_Packed (Old_Itype) then
Visit_Field (Union_Id (Packed_Array_Type (Old_Itype)),
Old_Itype);
end if;
end if;
end Visit_Itype;
----------------
-- Visit_List --
----------------
procedure Visit_List (L : List_Id) is
N : Node_Id;
begin
if L /= No_List then
N := First (L);
while Present (N) loop
Visit_Node (N);
Next (N);
end loop;
end if;
end Visit_List;
----------------
-- Visit_Node --
----------------
procedure Visit_Node (N : Node_Or_Entity_Id) is
-- Start of processing for Visit_Node
begin
-- Handle case of an Itype, which must be copied
if Has_Extension (N)
and then Is_Itype (N)
then
-- Nothing to do if already in the list. This can happen with an
-- Itype entity that appears more than once in the tree.
-- Note that we do not want to visit descendents in this case.
-- Test for already in list when hash table is used
if NCT_Hash_Tables_Used then
if Present (NCT_Assoc.Get (Entity_Id (N))) then
return;
end if;
-- Test for already in list when hash table not used
else
declare
E : Elmt_Id;
begin
if Present (Actual_Map) then
E := First_Elmt (Actual_Map);
while Present (E) loop
if Node (E) = N then
return;
else
E := Next_Elmt (Next_Elmt (E));
end if;
end loop;
end if;
end;
end if;
Visit_Itype (N);
end if;
-- Visit descendents
Visit_Field (Field1 (N), N);
Visit_Field (Field2 (N), N);
Visit_Field (Field3 (N), N);
Visit_Field (Field4 (N), N);
Visit_Field (Field5 (N), N);
end Visit_Node;
-- Start of processing for New_Copy_Tree
begin
Actual_Map := Map;
-- See if we should use hash table
if No (Actual_Map) then
NCT_Hash_Tables_Used := False;
else
declare
Elmt : Elmt_Id;
begin
NCT_Table_Entries := 0;
Elmt := First_Elmt (Actual_Map);
while Present (Elmt) loop
NCT_Table_Entries := NCT_Table_Entries + 1;
Next_Elmt (Elmt);
Next_Elmt (Elmt);
end loop;
if NCT_Table_Entries > NCT_Hash_Threshhold then
Build_NCT_Hash_Tables;
else
NCT_Hash_Tables_Used := False;
end if;
end;
end if;
-- Hash table set up if required, now start phase one by visiting
-- top node (we will recursively visit the descendents).
Visit_Node (Source);
-- Now the second phase of the copy can start. First we process
-- all the mapped entities, copying their descendents.
if Present (Actual_Map) then
declare
Elmt : Elmt_Id;
New_Itype : Entity_Id;
begin
Elmt := First_Elmt (Actual_Map);
while Present (Elmt) loop
Next_Elmt (Elmt);
New_Itype := Node (Elmt);
Copy_Itype_With_Replacement (New_Itype);
Next_Elmt (Elmt);
end loop;
end;
end if;
-- Now we can copy the actual tree
return Copy_Node_With_Replacement (Source);
end New_Copy_Tree;
----------------
-- New_Entity --
----------------
function New_Entity
(New_Node_Kind : Node_Kind;
New_Sloc : Source_Ptr) return Entity_Id
is
Ent : Entity_Id;
begin
pragma Assert (New_Node_Kind in N_Entity);
Ent := Allocate_Initialize_Node (Empty, With_Extension => True);
-- If this is a node with a real location and we are generating
-- source nodes, then reset Current_Error_Node. This is useful
-- if we bomb during parsing to get a error location for the bomb.
if Default_Node.Comes_From_Source and then New_Sloc > No_Location then
Current_Error_Node := Ent;
end if;
Nodes.Table (Ent).Nkind := New_Node_Kind;
Nodes.Table (Ent).Sloc := New_Sloc;
pragma Debug (New_Node_Debugging_Output (Ent));
return Ent;
end New_Entity;
--------------
-- New_Node --
--------------
function New_Node
(New_Node_Kind : Node_Kind;
New_Sloc : Source_Ptr) return Node_Id
is
Nod : Node_Id;
begin
pragma Assert (New_Node_Kind not in N_Entity);
Nod := Allocate_Initialize_Node (Empty, With_Extension => False);
Nodes.Table (Nod).Nkind := New_Node_Kind;
Nodes.Table (Nod).Sloc := New_Sloc;
pragma Debug (New_Node_Debugging_Output (Nod));
-- If this is a node with a real location and we are generating source
-- nodes, then reset Current_Error_Node. This is useful if we bomb
-- during parsing to get an error location for the bomb.
if Default_Node.Comes_From_Source and then New_Sloc > No_Location then
Current_Error_Node := Nod;
end if;
return Nod;
end New_Node;
-------------------------
-- New_Node_Breakpoint --
-------------------------
procedure nn is -- New_Node_Breakpoint
begin
Write_Str ("Watched node ");
Write_Int (Int (Watch_Node));
Write_Str (" created");
Write_Eol;
end nn;
-------------------------------
-- New_Node_Debugging_Output --
-------------------------------
procedure nnd (N : Node_Id) is -- New_Node_Debugging_Output
Node_Is_Watched : constant Boolean := N = Watch_Node;
begin
if Debug_Flag_N or else Node_Is_Watched then
Write_Str ("Allocate ");
if Nkind (N) in N_Entity then
Write_Str ("entity");
else
Write_Str ("node");
end if;
Write_Str (", Id = ");
Write_Int (Int (N));
Write_Str (" ");
Write_Location (Sloc (N));
Write_Str (" ");
Write_Str (Node_Kind'Image (Nkind (N)));
Write_Eol;
if Node_Is_Watched then
New_Node_Breakpoint;
end if;
end if;
end nnd;
-----------
-- Nkind --
-----------
function Nkind (N : Node_Id) return Node_Kind is
begin
return Nodes.Table (N).Nkind;
end Nkind;
--------------
-- Nkind_In --
--------------
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind;
V4 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3, V4);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind;
V4 : Node_Kind;
V5 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3, V4, V5);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind;
V4 : Node_Kind;
V5 : Node_Kind;
V6 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3, V4, V5, V6);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind;
V4 : Node_Kind;
V5 : Node_Kind;
V6 : Node_Kind;
V7 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3, V4, V5, V6, V7);
end Nkind_In;
function Nkind_In
(N : Node_Id;
V1 : Node_Kind;
V2 : Node_Kind;
V3 : Node_Kind;
V4 : Node_Kind;
V5 : Node_Kind;
V6 : Node_Kind;
V7 : Node_Kind;
V8 : Node_Kind) return Boolean
is
begin
return Nkind_In (Nkind (N), V1, V2, V3, V4, V5, V6, V7, V8);
end Nkind_In;
--------
-- No --
--------
function No (N : Node_Id) return Boolean is
begin
return N = Empty;
end No;
-------------------
-- Nodes_Address --
-------------------
function Nodes_Address return System.Address is
begin
return Nodes.Table (First_Node_Id)'Address;
end Nodes_Address;
---------------
-- Num_Nodes --
---------------
function Num_Nodes return Nat is
begin
return Node_Count;
end Num_Nodes;
-------------------
-- Original_Node --
-------------------
function Original_Node (Node : Node_Id) return Node_Id is
begin
return Orig_Nodes.Table (Node);
end Original_Node;
-----------------
-- Paren_Count --
-----------------
function Paren_Count (N : Node_Id) return Nat is
C : Nat := 0;
begin
pragma Assert (N <= Nodes.Last);
if Nodes.Table (N).Pflag1 then
C := C + 1;
end if;
if Nodes.Table (N).Pflag2 then
C := C + 2;
end if;
-- Value of 0,1,2 returned as is
if C <= 2 then
return C;
-- Value of 3 means we search the table, and we must find an entry
else
for J in Paren_Counts.First .. Paren_Counts.Last loop
if N = Paren_Counts.Table (J).Nod then
return Paren_Counts.Table (J).Count;
end if;
end loop;
raise Program_Error;
end if;
end Paren_Count;
------------
-- Parent --
------------
function Parent (N : Node_Id) return Node_Id is
begin
if Is_List_Member (N) then
return Parent (List_Containing (N));
else
return Node_Id (Nodes.Table (N).Link);
end if;
end Parent;
-------------
-- Present --
-------------
function Present (N : Node_Id) return Boolean is
begin
return N /= Empty;
end Present;
--------------------------------
-- Preserve_Comes_From_Source --
--------------------------------
procedure Preserve_Comes_From_Source (NewN, OldN : Node_Id) is
begin
Nodes.Table (NewN).Comes_From_Source :=
Nodes.Table (OldN).Comes_From_Source;
end Preserve_Comes_From_Source;
-------------------
-- Relocate_Node --
-------------------
function Relocate_Node (Source : Node_Id) return Node_Id is
New_Node : Node_Id;
begin
if No (Source) then
return Empty;
end if;
New_Node := New_Copy (Source);
Fix_Parents (Ref_Node => Source, Fix_Node => New_Node);
-- We now set the parent of the new node to be the same as the
-- parent of the source. Almost always this parent will be
-- replaced by a new value when the relocated node is reattached
-- to the tree, but by doing it now, we ensure that this node is
-- not even temporarily disconnected from the tree. Note that this
-- does not happen free, because in the list case, the parent does
-- not get set.
Set_Parent (New_Node, Parent (Source));
-- If the node being relocated was a rewriting of some original
-- node, then the relocated node has the same original node.
if Orig_Nodes.Table (Source) /= Source then
Orig_Nodes.Table (New_Node) := Orig_Nodes.Table (Source);
end if;
return New_Node;
end Relocate_Node;
-------------
-- Replace --
-------------
procedure Replace (Old_Node, New_Node : Node_Id) is
Old_Post : constant Boolean := Nodes.Table (Old_Node).Error_Posted;
Old_CFS : constant Boolean := Nodes.Table (Old_Node).Comes_From_Source;
begin
pragma Assert
(not Has_Extension (Old_Node)
and not Has_Extension (New_Node)
and not Nodes.Table (New_Node).In_List);
-- Do copy, preserving link and in list status and comes from source
Copy_Node (Source => New_Node, Destination => Old_Node);
Nodes.Table (Old_Node).Comes_From_Source := Old_CFS;
Nodes.Table (Old_Node).Error_Posted := Old_Post;
-- Fix parents of substituted node, since it has changed identity
Fix_Parents (Ref_Node => New_Node, Fix_Node => Old_Node);
-- Since we are doing a replace, we assume that the original node
-- is intended to become the new replaced node. The call would be
-- to Rewrite if there were an intention to save the original node.
Orig_Nodes.Table (Old_Node) := Old_Node;
end Replace;
-------------
-- Rewrite --
-------------
procedure Rewrite (Old_Node, New_Node : Node_Id) is
Old_Error_P : constant Boolean := Nodes.Table (Old_Node).Error_Posted;
-- This fields is always preserved in the new node
Old_Paren_Count : Nat;
Old_Must_Not_Freeze : Boolean;
-- These fields are preserved in the new node only if the new node
-- and the old node are both subexpression nodes.
-- Note: it is a violation of abstraction levels for Must_Not_Freeze
-- to be referenced like this. ???
Sav_Node : Node_Id;
begin
pragma Assert
(not Has_Extension (Old_Node)
and not Has_Extension (New_Node)
and not Nodes.Table (New_Node).In_List);
if Nkind (Old_Node) in N_Subexpr then
Old_Paren_Count := Paren_Count (Old_Node);
Old_Must_Not_Freeze := Must_Not_Freeze (Old_Node);
else
Old_Paren_Count := 0;
Old_Must_Not_Freeze := False;
end if;
-- Allocate a new node, to be used to preserve the original contents
-- of the Old_Node, for possible later retrival by Original_Node and
-- make an entry in the Orig_Nodes table. This is only done if we have
-- not already rewritten the node, as indicated by an Orig_Nodes entry
-- that does not reference the Old_Node.
if Orig_Nodes.Table (Old_Node) = Old_Node then
Sav_Node := New_Copy (Old_Node);
Orig_Nodes.Table (Sav_Node) := Sav_Node;
Orig_Nodes.Table (Old_Node) := Sav_Node;
end if;
-- Copy substitute node into place, preserving old fields as required
Copy_Node (Source => New_Node, Destination => Old_Node);
Nodes.Table (Old_Node).Error_Posted := Old_Error_P;
if Nkind (New_Node) in N_Subexpr then
Set_Paren_Count (Old_Node, Old_Paren_Count);
Set_Must_Not_Freeze (Old_Node, Old_Must_Not_Freeze);
end if;
Fix_Parents (Ref_Node => New_Node, Fix_Node => Old_Node);
end Rewrite;
------------------
-- Set_Analyzed --
------------------
procedure Set_Analyzed (N : Node_Id; Val : Boolean := True) is
begin
Nodes.Table (N).Analyzed := Val;
end Set_Analyzed;
---------------------------
-- Set_Comes_From_Source --
---------------------------
procedure Set_Comes_From_Source (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Comes_From_Source := Val;
end Set_Comes_From_Source;
-----------------------------------
-- Set_Comes_From_Source_Default --
-----------------------------------
procedure Set_Comes_From_Source_Default (Default : Boolean) is
begin
Default_Node.Comes_From_Source := Default;
end Set_Comes_From_Source_Default;
---------------
-- Set_Ekind --
---------------
procedure Set_Ekind (E : Entity_Id; Val : Entity_Kind) is
begin
pragma Assert (Nkind (E) in N_Entity);
Nodes.Table (E + 1).Nkind := E_To_N (Val);
end Set_Ekind;
----------------------
-- Set_Error_Posted --
----------------------
procedure Set_Error_Posted (N : Node_Id; Val : Boolean := True) is
begin
Nodes.Table (N).Error_Posted := Val;
end Set_Error_Posted;
---------------------
-- Set_Paren_Count --
---------------------
procedure Set_Paren_Count (N : Node_Id; Val : Nat) is
begin
pragma Assert (Nkind (N) in N_Subexpr);
-- Value of 0,1,2 stored as is
if Val <= 2 then
Nodes.Table (N).Pflag1 := (Val mod 2 /= 0);
Nodes.Table (N).Pflag2 := (Val = 2);
-- Value of 3 or greater stores 3 in node and makes table entry
else
Nodes.Table (N).Pflag1 := True;
Nodes.Table (N).Pflag2 := True;
for J in Paren_Counts.First .. Paren_Counts.Last loop
if N = Paren_Counts.Table (J).Nod then
Paren_Counts.Table (J).Count := Val;
return;
end if;
end loop;
Paren_Counts.Append ((Nod => N, Count => Val));
end if;
end Set_Paren_Count;
----------------
-- Set_Parent --
----------------
procedure Set_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (not Nodes.Table (N).In_List);
Nodes.Table (N).Link := Union_Id (Val);
end Set_Parent;
--------------
-- Set_Sloc --
--------------
procedure Set_Sloc (N : Node_Id; Val : Source_Ptr) is
begin
Nodes.Table (N).Sloc := Val;
end Set_Sloc;
----------
-- Sloc --
----------
function Sloc (N : Node_Id) return Source_Ptr is
begin
return Nodes.Table (N).Sloc;
end Sloc;
-------------------
-- Traverse_Func --
-------------------
function Traverse_Func (Node : Node_Id) return Traverse_Final_Result is
function Traverse_Field
(Nod : Node_Id;
Fld : Union_Id;
FN : Field_Num) return Traverse_Final_Result;
-- Fld is one of the fields of Nod. If the field points to syntactic
-- node or list, then this node or list is traversed, and the result is
-- the result of this traversal. Otherwise a value of True is returned
-- with no processing. FN is the number of the field (1 .. 5).
--------------------
-- Traverse_Field --
--------------------
function Traverse_Field
(Nod : Node_Id;
Fld : Union_Id;
FN : Field_Num) return Traverse_Final_Result
is
begin
if Fld = Union_Id (Empty) then
return OK;
-- Descendent is a node
elsif Fld in Node_Range then
-- Traverse descendent that is syntactic subtree node
if Is_Syntactic_Field (Nkind (Nod), FN) then
return Traverse_Func (Node_Id (Fld));
-- Node that is not a syntactic subtree
else
return OK;
end if;
-- Descendent is a list
elsif Fld in List_Range then
-- Traverse descendent that is a syntactic subtree list
if Is_Syntactic_Field (Nkind (Nod), FN) then
declare
Elmt : Node_Id := First (List_Id (Fld));
begin
while Present (Elmt) loop
if Traverse_Func (Elmt) = Abandon then
return Abandon;
else
Next (Elmt);
end if;
end loop;
return OK;
end;
-- List that is not a syntactic subtree
else
return OK;
end if;
-- Field was not a node or a list
else
return OK;
end if;
end Traverse_Field;
Cur_Node : Node_Id := Node;
-- Start of processing for Traverse_Func
begin
-- We walk Field2 last, and if it is a node, we eliminate the tail
-- recursion by jumping back to this label. This is because Field2 is
-- where the Left_Opnd field of N_Op_Concat is stored, and in practice
-- concatenations are sometimes deeply nested, as in X1&X2&...&XN. This
-- trick prevents us from running out of memory in that case. We don't
-- bother eliminating the tail recursion if Field2 is a list.
<<Tail_Recurse>>
case Process (Cur_Node) is
when Abandon =>
return Abandon;
when Skip =>
return OK;
when OK =>
null;
when OK_Orig =>
Cur_Node := Original_Node (Cur_Node);
end case;
if Traverse_Field (Cur_Node, Field1 (Cur_Node), 1) = Abandon
or else -- skip Field2 here
Traverse_Field (Cur_Node, Field3 (Cur_Node), 3) = Abandon
or else
Traverse_Field (Cur_Node, Field4 (Cur_Node), 4) = Abandon
or else
Traverse_Field (Cur_Node, Field5 (Cur_Node), 5) = Abandon
then
return Abandon;
end if;
if Field2 (Cur_Node) not in Node_Range then
return Traverse_Field (Cur_Node, Field2 (Cur_Node), 2);
elsif Is_Syntactic_Field (Nkind (Cur_Node), 2)
and then Field2 (Cur_Node) /= Empty_List_Or_Node
then
-- Here is the tail recursion step, we reset Cur_Node and jump back
-- to the start of the procedure, which has the same semantic effect
-- as a call.
Cur_Node := Node_Id (Field2 (Cur_Node));
goto Tail_Recurse;
end if;
return OK;
end Traverse_Func;
-------------------
-- Traverse_Proc --
-------------------
procedure Traverse_Proc (Node : Node_Id) is
function Traverse is new Traverse_Func (Process);
Discard : Traverse_Final_Result;
pragma Warnings (Off, Discard);
begin
Discard := Traverse (Node);
end Traverse_Proc;
---------------
-- Tree_Read --
---------------
procedure Tree_Read is
begin
Tree_Read_Int (Node_Count);
Nodes.Tree_Read;
Orig_Nodes.Tree_Read;
Paren_Counts.Tree_Read;
end Tree_Read;
----------------
-- Tree_Write --
----------------
procedure Tree_Write is
begin
Tree_Write_Int (Node_Count);
Nodes.Tree_Write;
Orig_Nodes.Tree_Write;
Paren_Counts.Tree_Write;
end Tree_Write;
------------------------------
-- Unchecked Access Package --
------------------------------
package body Unchecked_Access is
function Field1 (N : Node_Id) return Union_Id is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Field1;
end Field1;
function Field2 (N : Node_Id) return Union_Id is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Field2;
end Field2;
function Field3 (N : Node_Id) return Union_Id is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Field3;
end Field3;
function Field4 (N : Node_Id) return Union_Id is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Field4;
end Field4;
function Field5 (N : Node_Id) return Union_Id is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Field5;
end Field5;
function Field6 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field6;
end Field6;
function Field7 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field7;
end Field7;
function Field8 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field8;
end Field8;
function Field9 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field9;
end Field9;
function Field10 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field10;
end Field10;
function Field11 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field11;
end Field11;
function Field12 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Field12;
end Field12;
function Field13 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field6;
end Field13;
function Field14 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field7;
end Field14;
function Field15 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field8;
end Field15;
function Field16 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field9;
end Field16;
function Field17 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field10;
end Field17;
function Field18 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Field11;
end Field18;
function Field19 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Field6;
end Field19;
function Field20 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Field7;
end Field20;
function Field21 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Field8;
end Field21;
function Field22 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Field9;
end Field22;
function Field23 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Field10;
end Field23;
function Field24 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 4).Field6;
end Field24;
function Field25 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 4).Field7;
end Field25;
function Field26 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 4).Field8;
end Field26;
function Field27 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 4).Field9;
end Field27;
function Field28 (N : Node_Id) return Union_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 4).Field10;
end Field28;
function Node1 (N : Node_Id) return Node_Id is
begin
pragma Assert (N <= Nodes.Last);
return Node_Id (Nodes.Table (N).Field1);
end Node1;
function Node2 (N : Node_Id) return Node_Id is
begin
pragma Assert (N <= Nodes.Last);
return Node_Id (Nodes.Table (N).Field2);
end Node2;
function Node3 (N : Node_Id) return Node_Id is
begin
pragma Assert (N <= Nodes.Last);
return Node_Id (Nodes.Table (N).Field3);
end Node3;
function Node4 (N : Node_Id) return Node_Id is
begin
pragma Assert (N <= Nodes.Last);
return Node_Id (Nodes.Table (N).Field4);
end Node4;
function Node5 (N : Node_Id) return Node_Id is
begin
pragma Assert (N <= Nodes.Last);
return Node_Id (Nodes.Table (N).Field5);
end Node5;
function Node6 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field6);
end Node6;
function Node7 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field7);
end Node7;
function Node8 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field8);
end Node8;
function Node9 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field9);
end Node9;
function Node10 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field10);
end Node10;
function Node11 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field11);
end Node11;
function Node12 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 1).Field12);
end Node12;
function Node13 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field6);
end Node13;
function Node14 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field7);
end Node14;
function Node15 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field8);
end Node15;
function Node16 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field9);
end Node16;
function Node17 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field10);
end Node17;
function Node18 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 2).Field11);
end Node18;
function Node19 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 3).Field6);
end Node19;
function Node20 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 3).Field7);
end Node20;
function Node21 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 3).Field8);
end Node21;
function Node22 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 3).Field9);
end Node22;
function Node23 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 3).Field10);
end Node23;
function Node24 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 4).Field6);
end Node24;
function Node25 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 4).Field7);
end Node25;
function Node26 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 4).Field8);
end Node26;
function Node27 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 4).Field9);
end Node27;
function Node28 (N : Node_Id) return Node_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return Node_Id (Nodes.Table (N + 4).Field10);
end Node28;
function List1 (N : Node_Id) return List_Id is
begin
pragma Assert (N <= Nodes.Last);
return List_Id (Nodes.Table (N).Field1);
end List1;
function List2 (N : Node_Id) return List_Id is
begin
pragma Assert (N <= Nodes.Last);
return List_Id (Nodes.Table (N).Field2);
end List2;
function List3 (N : Node_Id) return List_Id is
begin
pragma Assert (N <= Nodes.Last);
return List_Id (Nodes.Table (N).Field3);
end List3;
function List4 (N : Node_Id) return List_Id is
begin
pragma Assert (N <= Nodes.Last);
return List_Id (Nodes.Table (N).Field4);
end List4;
function List5 (N : Node_Id) return List_Id is
begin
pragma Assert (N <= Nodes.Last);
return List_Id (Nodes.Table (N).Field5);
end List5;
function List10 (N : Node_Id) return List_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return List_Id (Nodes.Table (N + 1).Field10);
end List10;
function List14 (N : Node_Id) return List_Id is
begin
pragma Assert (Nkind (N) in N_Entity);
return List_Id (Nodes.Table (N + 2).Field7);
end List14;
function Elist1 (N : Node_Id) return Elist_Id is
pragma Assert (N <= Nodes.Last);
Value : constant Union_Id := Nodes.Table (N).Field1;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist1;
function Elist2 (N : Node_Id) return Elist_Id is
pragma Assert (N <= Nodes.Last);
Value : constant Union_Id := Nodes.Table (N).Field2;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist2;
function Elist3 (N : Node_Id) return Elist_Id is
pragma Assert (N <= Nodes.Last);
Value : constant Union_Id := Nodes.Table (N).Field3;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist3;
function Elist4 (N : Node_Id) return Elist_Id is
pragma Assert (N <= Nodes.Last);
Value : constant Union_Id := Nodes.Table (N).Field4;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist4;
function Elist8 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 1).Field8;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist8;
function Elist13 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 2).Field6;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist13;
function Elist15 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 2).Field8;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist15;
function Elist16 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 2).Field9;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist16;
function Elist18 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 2).Field11;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist18;
function Elist21 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 3).Field8;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist21;
function Elist23 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 3).Field10;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist23;
function Elist25 (N : Node_Id) return Elist_Id is
pragma Assert (Nkind (N) in N_Entity);
Value : constant Union_Id := Nodes.Table (N + 4).Field7;
begin
if Value = 0 then
return No_Elist;
else
return Elist_Id (Value);
end if;
end Elist25;
function Name1 (N : Node_Id) return Name_Id is
begin
pragma Assert (N <= Nodes.Last);
return Name_Id (Nodes.Table (N).Field1);
end Name1;
function Name2 (N : Node_Id) return Name_Id is
begin
pragma Assert (N <= Nodes.Last);
return Name_Id (Nodes.Table (N).Field2);
end Name2;
function Str3 (N : Node_Id) return String_Id is
begin
pragma Assert (N <= Nodes.Last);
return String_Id (Nodes.Table (N).Field3);
end Str3;
function Uint2 (N : Node_Id) return Uint is
pragma Assert (N <= Nodes.Last);
U : constant Union_Id := Nodes.Table (N).Field2;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint2;
function Uint3 (N : Node_Id) return Uint is
pragma Assert (N <= Nodes.Last);
U : constant Union_Id := Nodes.Table (N).Field3;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint3;
function Uint4 (N : Node_Id) return Uint is
pragma Assert (N <= Nodes.Last);
U : constant Union_Id := Nodes.Table (N).Field4;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint4;
function Uint5 (N : Node_Id) return Uint is
pragma Assert (N <= Nodes.Last);
U : constant Union_Id := Nodes.Table (N).Field5;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint5;
function Uint8 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 1).Field8;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint8;
function Uint9 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 1).Field9;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint9;
function Uint10 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 1).Field10;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint10;
function Uint11 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 1).Field11;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint11;
function Uint12 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 1).Field12;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint12;
function Uint13 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 2).Field6;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint13;
function Uint14 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 2).Field7;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint14;
function Uint15 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 2).Field8;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint15;
function Uint16 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 2).Field9;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint16;
function Uint17 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 2).Field10;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint17;
function Uint22 (N : Node_Id) return Uint is
pragma Assert (Nkind (N) in N_Entity);
U : constant Union_Id := Nodes.Table (N + 3).Field9;
begin
if U = 0 then
return Uint_0;
else
return From_Union (U);
end if;
end Uint22;
function Ureal3 (N : Node_Id) return Ureal is
begin
pragma Assert (N <= Nodes.Last);
return From_Union (Nodes.Table (N).Field3);
end Ureal3;
function Ureal18 (N : Node_Id) return Ureal is
begin
pragma Assert (Nkind (N) in N_Entity);
return From_Union (Nodes.Table (N + 2).Field11);
end Ureal18;
function Ureal21 (N : Node_Id) return Ureal is
begin
pragma Assert (Nkind (N) in N_Entity);
return From_Union (Nodes.Table (N + 3).Field8);
end Ureal21;
function Flag4 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag4;
end Flag4;
function Flag5 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag5;
end Flag5;
function Flag6 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag6;
end Flag6;
function Flag7 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag7;
end Flag7;
function Flag8 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag8;
end Flag8;
function Flag9 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag9;
end Flag9;
function Flag10 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag10;
end Flag10;
function Flag11 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag11;
end Flag11;
function Flag12 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag12;
end Flag12;
function Flag13 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag13;
end Flag13;
function Flag14 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag14;
end Flag14;
function Flag15 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag15;
end Flag15;
function Flag16 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag16;
end Flag16;
function Flag17 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag17;
end Flag17;
function Flag18 (N : Node_Id) return Boolean is
begin
pragma Assert (N <= Nodes.Last);
return Nodes.Table (N).Flag18;
end Flag18;
function Flag19 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).In_List;
end Flag19;
function Flag20 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Unused_1;
end Flag20;
function Flag21 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Rewrite_Ins;
end Flag21;
function Flag22 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Analyzed;
end Flag22;
function Flag23 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Comes_From_Source;
end Flag23;
function Flag24 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Error_Posted;
end Flag24;
function Flag25 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag4;
end Flag25;
function Flag26 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag5;
end Flag26;
function Flag27 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag6;
end Flag27;
function Flag28 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag7;
end Flag28;
function Flag29 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag8;
end Flag29;
function Flag30 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag9;
end Flag30;
function Flag31 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag10;
end Flag31;
function Flag32 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag11;
end Flag32;
function Flag33 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag12;
end Flag33;
function Flag34 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag13;
end Flag34;
function Flag35 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag14;
end Flag35;
function Flag36 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag15;
end Flag36;
function Flag37 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag16;
end Flag37;
function Flag38 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag17;
end Flag38;
function Flag39 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Flag18;
end Flag39;
function Flag40 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).In_List;
end Flag40;
function Flag41 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Unused_1;
end Flag41;
function Flag42 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Rewrite_Ins;
end Flag42;
function Flag43 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Analyzed;
end Flag43;
function Flag44 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Comes_From_Source;
end Flag44;
function Flag45 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Error_Posted;
end Flag45;
function Flag46 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag4;
end Flag46;
function Flag47 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag5;
end Flag47;
function Flag48 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag6;
end Flag48;
function Flag49 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag7;
end Flag49;
function Flag50 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag8;
end Flag50;
function Flag51 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag9;
end Flag51;
function Flag52 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag10;
end Flag52;
function Flag53 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag11;
end Flag53;
function Flag54 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag12;
end Flag54;
function Flag55 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag13;
end Flag55;
function Flag56 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag14;
end Flag56;
function Flag57 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag15;
end Flag57;
function Flag58 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag16;
end Flag58;
function Flag59 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag17;
end Flag59;
function Flag60 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Flag18;
end Flag60;
function Flag61 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Pflag1;
end Flag61;
function Flag62 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 1).Pflag2;
end Flag62;
function Flag63 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Pflag1;
end Flag63;
function Flag64 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 2).Pflag2;
end Flag64;
function Flag65 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag65;
end Flag65;
function Flag66 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag66;
end Flag66;
function Flag67 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag67;
end Flag67;
function Flag68 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag68;
end Flag68;
function Flag69 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag69;
end Flag69;
function Flag70 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag70;
end Flag70;
function Flag71 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag71;
end Flag71;
function Flag72 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Byte (Nodes.Table (N + 2).Nkind).Flag72;
end Flag72;
function Flag73 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag73;
end Flag73;
function Flag74 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag74;
end Flag74;
function Flag75 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag75;
end Flag75;
function Flag76 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag76;
end Flag76;
function Flag77 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag77;
end Flag77;
function Flag78 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag78;
end Flag78;
function Flag79 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag79;
end Flag79;
function Flag80 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag80;
end Flag80;
function Flag81 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag81;
end Flag81;
function Flag82 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag82;
end Flag82;
function Flag83 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag83;
end Flag83;
function Flag84 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag84;
end Flag84;
function Flag85 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag85;
end Flag85;
function Flag86 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag86;
end Flag86;
function Flag87 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag87;
end Flag87;
function Flag88 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag88;
end Flag88;
function Flag89 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag89;
end Flag89;
function Flag90 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag90;
end Flag90;
function Flag91 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag91;
end Flag91;
function Flag92 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag92;
end Flag92;
function Flag93 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag93;
end Flag93;
function Flag94 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag94;
end Flag94;
function Flag95 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag95;
end Flag95;
function Flag96 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word (Nodes.Table (N + 2).Field12).Flag96;
end Flag96;
function Flag97 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag97;
end Flag97;
function Flag98 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag98;
end Flag98;
function Flag99 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag99;
end Flag99;
function Flag100 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag100;
end Flag100;
function Flag101 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag101;
end Flag101;
function Flag102 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag102;
end Flag102;
function Flag103 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag103;
end Flag103;
function Flag104 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag104;
end Flag104;
function Flag105 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag105;
end Flag105;
function Flag106 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag106;
end Flag106;
function Flag107 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag107;
end Flag107;
function Flag108 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag108;
end Flag108;
function Flag109 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag109;
end Flag109;
function Flag110 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag110;
end Flag110;
function Flag111 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag111;
end Flag111;
function Flag112 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag112;
end Flag112;
function Flag113 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag113;
end Flag113;
function Flag114 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag114;
end Flag114;
function Flag115 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag115;
end Flag115;
function Flag116 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag116;
end Flag116;
function Flag117 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag117;
end Flag117;
function Flag118 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag118;
end Flag118;
function Flag119 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag119;
end Flag119;
function Flag120 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag120;
end Flag120;
function Flag121 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag121;
end Flag121;
function Flag122 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag122;
end Flag122;
function Flag123 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag123;
end Flag123;
function Flag124 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag124;
end Flag124;
function Flag125 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag125;
end Flag125;
function Flag126 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag126;
end Flag126;
function Flag127 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag127;
end Flag127;
function Flag128 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word2 (Nodes.Table (N + 3).Field12).Flag128;
end Flag128;
function Flag129 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).In_List;
end Flag129;
function Flag130 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Unused_1;
end Flag130;
function Flag131 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Rewrite_Ins;
end Flag131;
function Flag132 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Analyzed;
end Flag132;
function Flag133 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Comes_From_Source;
end Flag133;
function Flag134 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Error_Posted;
end Flag134;
function Flag135 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag4;
end Flag135;
function Flag136 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag5;
end Flag136;
function Flag137 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag6;
end Flag137;
function Flag138 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag7;
end Flag138;
function Flag139 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag8;
end Flag139;
function Flag140 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag9;
end Flag140;
function Flag141 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag10;
end Flag141;
function Flag142 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag11;
end Flag142;
function Flag143 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag12;
end Flag143;
function Flag144 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag13;
end Flag144;
function Flag145 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag14;
end Flag145;
function Flag146 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag15;
end Flag146;
function Flag147 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag16;
end Flag147;
function Flag148 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag17;
end Flag148;
function Flag149 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Flag18;
end Flag149;
function Flag150 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Pflag1;
end Flag150;
function Flag151 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return Nodes.Table (N + 3).Pflag2;
end Flag151;
function Flag152 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag152;
end Flag152;
function Flag153 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag153;
end Flag153;
function Flag154 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag154;
end Flag154;
function Flag155 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag155;
end Flag155;
function Flag156 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag156;
end Flag156;
function Flag157 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag157;
end Flag157;
function Flag158 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag158;
end Flag158;
function Flag159 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag159;
end Flag159;
function Flag160 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag160;
end Flag160;
function Flag161 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag161;
end Flag161;
function Flag162 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag162;
end Flag162;
function Flag163 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag163;
end Flag163;
function Flag164 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag164;
end Flag164;
function Flag165 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag165;
end Flag165;
function Flag166 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag166;
end Flag166;
function Flag167 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag167;
end Flag167;
function Flag168 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag168;
end Flag168;
function Flag169 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag169;
end Flag169;
function Flag170 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag170;
end Flag170;
function Flag171 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag171;
end Flag171;
function Flag172 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag172;
end Flag172;
function Flag173 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag173;
end Flag173;
function Flag174 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag174;
end Flag174;
function Flag175 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag175;
end Flag175;
function Flag176 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag176;
end Flag176;
function Flag177 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag177;
end Flag177;
function Flag178 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag178;
end Flag178;
function Flag179 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag179;
end Flag179;
function Flag180 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag180;
end Flag180;
function Flag181 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag181;
end Flag181;
function Flag182 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag182;
end Flag182;
function Flag183 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word3 (Nodes.Table (N + 3).Field11).Flag183;
end Flag183;
function Flag184 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag184;
end Flag184;
function Flag185 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag185;
end Flag185;
function Flag186 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag186;
end Flag186;
function Flag187 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag187;
end Flag187;
function Flag188 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag188;
end Flag188;
function Flag189 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag189;
end Flag189;
function Flag190 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag190;
end Flag190;
function Flag191 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag191;
end Flag191;
function Flag192 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag192;
end Flag192;
function Flag193 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag193;
end Flag193;
function Flag194 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag194;
end Flag194;
function Flag195 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag195;
end Flag195;
function Flag196 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag196;
end Flag196;
function Flag197 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag197;
end Flag197;
function Flag198 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag198;
end Flag198;
function Flag199 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag199;
end Flag199;
function Flag200 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag200;
end Flag200;
function Flag201 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag201;
end Flag201;
function Flag202 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag202;
end Flag202;
function Flag203 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag203;
end Flag203;
function Flag204 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag204;
end Flag204;
function Flag205 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag205;
end Flag205;
function Flag206 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag206;
end Flag206;
function Flag207 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag207;
end Flag207;
function Flag208 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag208;
end Flag208;
function Flag209 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag209;
end Flag209;
function Flag210 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag210;
end Flag210;
function Flag211 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag211;
end Flag211;
function Flag212 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag212;
end Flag212;
function Flag213 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag213;
end Flag213;
function Flag214 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag214;
end Flag214;
function Flag215 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word4 (Nodes.Table (N + 4).Field11).Flag215;
end Flag215;
function Flag216 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag216;
end Flag216;
function Flag217 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag217;
end Flag217;
function Flag218 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag218;
end Flag218;
function Flag219 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag219;
end Flag219;
function Flag220 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag220;
end Flag220;
function Flag221 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag221;
end Flag221;
function Flag222 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag222;
end Flag222;
function Flag223 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag223;
end Flag223;
function Flag224 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag224;
end Flag224;
function Flag225 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag225;
end Flag225;
function Flag226 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag226;
end Flag226;
function Flag227 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag227;
end Flag227;
function Flag228 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag228;
end Flag228;
function Flag229 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag229;
end Flag229;
function Flag230 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag230;
end Flag230;
function Flag231 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag231;
end Flag231;
function Flag232 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag232;
end Flag232;
function Flag233 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag233;
end Flag233;
function Flag234 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag234;
end Flag234;
function Flag235 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag235;
end Flag235;
function Flag236 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag236;
end Flag236;
function Flag237 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag237;
end Flag237;
function Flag238 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag238;
end Flag238;
function Flag239 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag239;
end Flag239;
function Flag240 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag240;
end Flag240;
function Flag241 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag241;
end Flag241;
function Flag242 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag242;
end Flag242;
function Flag243 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag243;
end Flag243;
function Flag244 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag244;
end Flag244;
function Flag245 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag245;
end Flag245;
function Flag246 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag246;
end Flag246;
function Flag247 (N : Node_Id) return Boolean is
begin
pragma Assert (Nkind (N) in N_Entity);
return To_Flag_Word5 (Nodes.Table (N + 4).Field12).Flag247;
end Flag247;
procedure Set_Nkind (N : Node_Id; Val : Node_Kind) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Nkind := Val;
end Set_Nkind;
procedure Set_Field1 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field1 := Val;
end Set_Field1;
procedure Set_Field2 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field2 := Val;
end Set_Field2;
procedure Set_Field3 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := Val;
end Set_Field3;
procedure Set_Field4 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field4 := Val;
end Set_Field4;
procedure Set_Field5 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field5 := Val;
end Set_Field5;
procedure Set_Field6 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field6 := Val;
end Set_Field6;
procedure Set_Field7 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field7 := Val;
end Set_Field7;
procedure Set_Field8 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field8 := Val;
end Set_Field8;
procedure Set_Field9 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field9 := Val;
end Set_Field9;
procedure Set_Field10 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field10 := Val;
end Set_Field10;
procedure Set_Field11 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field11 := Val;
end Set_Field11;
procedure Set_Field12 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field12 := Val;
end Set_Field12;
procedure Set_Field13 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field6 := Val;
end Set_Field13;
procedure Set_Field14 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field7 := Val;
end Set_Field14;
procedure Set_Field15 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field8 := Val;
end Set_Field15;
procedure Set_Field16 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field9 := Val;
end Set_Field16;
procedure Set_Field17 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field10 := Val;
end Set_Field17;
procedure Set_Field18 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field11 := Val;
end Set_Field18;
procedure Set_Field19 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field6 := Val;
end Set_Field19;
procedure Set_Field20 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field7 := Val;
end Set_Field20;
procedure Set_Field21 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field8 := Val;
end Set_Field21;
procedure Set_Field22 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field9 := Val;
end Set_Field22;
procedure Set_Field23 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field10 := Val;
end Set_Field23;
procedure Set_Field24 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field6 := Val;
end Set_Field24;
procedure Set_Field25 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field7 := Val;
end Set_Field25;
procedure Set_Field26 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field8 := Val;
end Set_Field26;
procedure Set_Field27 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field9 := Val;
end Set_Field27;
procedure Set_Field28 (N : Node_Id; Val : Union_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field10 := Val;
end Set_Field28;
procedure Set_Node1 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field1 := Union_Id (Val);
end Set_Node1;
procedure Set_Node2 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field2 := Union_Id (Val);
end Set_Node2;
procedure Set_Node3 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := Union_Id (Val);
end Set_Node3;
procedure Set_Node4 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field4 := Union_Id (Val);
end Set_Node4;
procedure Set_Node5 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field5 := Union_Id (Val);
end Set_Node5;
procedure Set_Node6 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field6 := Union_Id (Val);
end Set_Node6;
procedure Set_Node7 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field7 := Union_Id (Val);
end Set_Node7;
procedure Set_Node8 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field8 := Union_Id (Val);
end Set_Node8;
procedure Set_Node9 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field9 := Union_Id (Val);
end Set_Node9;
procedure Set_Node10 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field10 := Union_Id (Val);
end Set_Node10;
procedure Set_Node11 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field11 := Union_Id (Val);
end Set_Node11;
procedure Set_Node12 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field12 := Union_Id (Val);
end Set_Node12;
procedure Set_Node13 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field6 := Union_Id (Val);
end Set_Node13;
procedure Set_Node14 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field7 := Union_Id (Val);
end Set_Node14;
procedure Set_Node15 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field8 := Union_Id (Val);
end Set_Node15;
procedure Set_Node16 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field9 := Union_Id (Val);
end Set_Node16;
procedure Set_Node17 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field10 := Union_Id (Val);
end Set_Node17;
procedure Set_Node18 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field11 := Union_Id (Val);
end Set_Node18;
procedure Set_Node19 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field6 := Union_Id (Val);
end Set_Node19;
procedure Set_Node20 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field7 := Union_Id (Val);
end Set_Node20;
procedure Set_Node21 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field8 := Union_Id (Val);
end Set_Node21;
procedure Set_Node22 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field9 := Union_Id (Val);
end Set_Node22;
procedure Set_Node23 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field10 := Union_Id (Val);
end Set_Node23;
procedure Set_Node24 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field6 := Union_Id (Val);
end Set_Node24;
procedure Set_Node25 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field7 := Union_Id (Val);
end Set_Node25;
procedure Set_Node26 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field8 := Union_Id (Val);
end Set_Node26;
procedure Set_Node27 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field9 := Union_Id (Val);
end Set_Node27;
procedure Set_Node28 (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field10 := Union_Id (Val);
end Set_Node28;
procedure Set_List1 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field1 := Union_Id (Val);
end Set_List1;
procedure Set_List2 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field2 := Union_Id (Val);
end Set_List2;
procedure Set_List3 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := Union_Id (Val);
end Set_List3;
procedure Set_List4 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field4 := Union_Id (Val);
end Set_List4;
procedure Set_List5 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field5 := Union_Id (Val);
end Set_List5;
procedure Set_List10 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field10 := Union_Id (Val);
end Set_List10;
procedure Set_List14 (N : Node_Id; Val : List_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field7 := Union_Id (Val);
end Set_List14;
procedure Set_Elist1 (N : Node_Id; Val : Elist_Id) is
begin
Nodes.Table (N).Field1 := Union_Id (Val);
end Set_Elist1;
procedure Set_Elist2 (N : Node_Id; Val : Elist_Id) is
begin
Nodes.Table (N).Field2 := Union_Id (Val);
end Set_Elist2;
procedure Set_Elist3 (N : Node_Id; Val : Elist_Id) is
begin
Nodes.Table (N).Field3 := Union_Id (Val);
end Set_Elist3;
procedure Set_Elist4 (N : Node_Id; Val : Elist_Id) is
begin
Nodes.Table (N).Field4 := Union_Id (Val);
end Set_Elist4;
procedure Set_Elist8 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field8 := Union_Id (Val);
end Set_Elist8;
procedure Set_Elist13 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field6 := Union_Id (Val);
end Set_Elist13;
procedure Set_Elist15 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field8 := Union_Id (Val);
end Set_Elist15;
procedure Set_Elist16 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field9 := Union_Id (Val);
end Set_Elist16;
procedure Set_Elist18 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field11 := Union_Id (Val);
end Set_Elist18;
procedure Set_Elist21 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field8 := Union_Id (Val);
end Set_Elist21;
procedure Set_Elist23 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field10 := Union_Id (Val);
end Set_Elist23;
procedure Set_Elist25 (N : Node_Id; Val : Elist_Id) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 4).Field7 := Union_Id (Val);
end Set_Elist25;
procedure Set_Name1 (N : Node_Id; Val : Name_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field1 := Union_Id (Val);
end Set_Name1;
procedure Set_Name2 (N : Node_Id; Val : Name_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field2 := Union_Id (Val);
end Set_Name2;
procedure Set_Str3 (N : Node_Id; Val : String_Id) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := Union_Id (Val);
end Set_Str3;
procedure Set_Uint2 (N : Node_Id; Val : Uint) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field2 := To_Union (Val);
end Set_Uint2;
procedure Set_Uint3 (N : Node_Id; Val : Uint) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := To_Union (Val);
end Set_Uint3;
procedure Set_Uint4 (N : Node_Id; Val : Uint) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field4 := To_Union (Val);
end Set_Uint4;
procedure Set_Uint5 (N : Node_Id; Val : Uint) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field5 := To_Union (Val);
end Set_Uint5;
procedure Set_Uint8 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field8 := To_Union (Val);
end Set_Uint8;
procedure Set_Uint9 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field9 := To_Union (Val);
end Set_Uint9;
procedure Set_Uint10 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field10 := To_Union (Val);
end Set_Uint10;
procedure Set_Uint11 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field11 := To_Union (Val);
end Set_Uint11;
procedure Set_Uint12 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Field12 := To_Union (Val);
end Set_Uint12;
procedure Set_Uint13 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field6 := To_Union (Val);
end Set_Uint13;
procedure Set_Uint14 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field7 := To_Union (Val);
end Set_Uint14;
procedure Set_Uint15 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field8 := To_Union (Val);
end Set_Uint15;
procedure Set_Uint16 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field9 := To_Union (Val);
end Set_Uint16;
procedure Set_Uint17 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field10 := To_Union (Val);
end Set_Uint17;
procedure Set_Uint22 (N : Node_Id; Val : Uint) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field9 := To_Union (Val);
end Set_Uint22;
procedure Set_Ureal3 (N : Node_Id; Val : Ureal) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Field3 := To_Union (Val);
end Set_Ureal3;
procedure Set_Ureal18 (N : Node_Id; Val : Ureal) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Field11 := To_Union (Val);
end Set_Ureal18;
procedure Set_Ureal21 (N : Node_Id; Val : Ureal) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Field8 := To_Union (Val);
end Set_Ureal21;
procedure Set_Flag4 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag4 := Val;
end Set_Flag4;
procedure Set_Flag5 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag5 := Val;
end Set_Flag5;
procedure Set_Flag6 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag6 := Val;
end Set_Flag6;
procedure Set_Flag7 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag7 := Val;
end Set_Flag7;
procedure Set_Flag8 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag8 := Val;
end Set_Flag8;
procedure Set_Flag9 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag9 := Val;
end Set_Flag9;
procedure Set_Flag10 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag10 := Val;
end Set_Flag10;
procedure Set_Flag11 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag11 := Val;
end Set_Flag11;
procedure Set_Flag12 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag12 := Val;
end Set_Flag12;
procedure Set_Flag13 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag13 := Val;
end Set_Flag13;
procedure Set_Flag14 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag14 := Val;
end Set_Flag14;
procedure Set_Flag15 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag15 := Val;
end Set_Flag15;
procedure Set_Flag16 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag16 := Val;
end Set_Flag16;
procedure Set_Flag17 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag17 := Val;
end Set_Flag17;
procedure Set_Flag18 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (N <= Nodes.Last);
Nodes.Table (N).Flag18 := Val;
end Set_Flag18;
procedure Set_Flag19 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).In_List := Val;
end Set_Flag19;
procedure Set_Flag20 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Unused_1 := Val;
end Set_Flag20;
procedure Set_Flag21 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Rewrite_Ins := Val;
end Set_Flag21;
procedure Set_Flag22 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Analyzed := Val;
end Set_Flag22;
procedure Set_Flag23 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Comes_From_Source := Val;
end Set_Flag23;
procedure Set_Flag24 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Error_Posted := Val;
end Set_Flag24;
procedure Set_Flag25 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag4 := Val;
end Set_Flag25;
procedure Set_Flag26 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag5 := Val;
end Set_Flag26;
procedure Set_Flag27 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag6 := Val;
end Set_Flag27;
procedure Set_Flag28 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag7 := Val;
end Set_Flag28;
procedure Set_Flag29 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag8 := Val;
end Set_Flag29;
procedure Set_Flag30 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag9 := Val;
end Set_Flag30;
procedure Set_Flag31 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag10 := Val;
end Set_Flag31;
procedure Set_Flag32 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag11 := Val;
end Set_Flag32;
procedure Set_Flag33 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag12 := Val;
end Set_Flag33;
procedure Set_Flag34 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag13 := Val;
end Set_Flag34;
procedure Set_Flag35 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag14 := Val;
end Set_Flag35;
procedure Set_Flag36 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag15 := Val;
end Set_Flag36;
procedure Set_Flag37 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag16 := Val;
end Set_Flag37;
procedure Set_Flag38 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag17 := Val;
end Set_Flag38;
procedure Set_Flag39 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Flag18 := Val;
end Set_Flag39;
procedure Set_Flag40 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).In_List := Val;
end Set_Flag40;
procedure Set_Flag41 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Unused_1 := Val;
end Set_Flag41;
procedure Set_Flag42 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Rewrite_Ins := Val;
end Set_Flag42;
procedure Set_Flag43 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Analyzed := Val;
end Set_Flag43;
procedure Set_Flag44 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Comes_From_Source := Val;
end Set_Flag44;
procedure Set_Flag45 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Error_Posted := Val;
end Set_Flag45;
procedure Set_Flag46 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag4 := Val;
end Set_Flag46;
procedure Set_Flag47 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag5 := Val;
end Set_Flag47;
procedure Set_Flag48 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag6 := Val;
end Set_Flag48;
procedure Set_Flag49 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag7 := Val;
end Set_Flag49;
procedure Set_Flag50 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag8 := Val;
end Set_Flag50;
procedure Set_Flag51 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag9 := Val;
end Set_Flag51;
procedure Set_Flag52 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag10 := Val;
end Set_Flag52;
procedure Set_Flag53 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag11 := Val;
end Set_Flag53;
procedure Set_Flag54 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag12 := Val;
end Set_Flag54;
procedure Set_Flag55 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag13 := Val;
end Set_Flag55;
procedure Set_Flag56 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag14 := Val;
end Set_Flag56;
procedure Set_Flag57 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag15 := Val;
end Set_Flag57;
procedure Set_Flag58 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag16 := Val;
end Set_Flag58;
procedure Set_Flag59 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag17 := Val;
end Set_Flag59;
procedure Set_Flag60 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Flag18 := Val;
end Set_Flag60;
procedure Set_Flag61 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Pflag1 := Val;
end Set_Flag61;
procedure Set_Flag62 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 1).Pflag2 := Val;
end Set_Flag62;
procedure Set_Flag63 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Pflag1 := Val;
end Set_Flag63;
procedure Set_Flag64 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 2).Pflag2 := Val;
end Set_Flag64;
procedure Set_Flag65 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag65 := Val;
end Set_Flag65;
procedure Set_Flag66 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag66 := Val;
end Set_Flag66;
procedure Set_Flag67 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag67 := Val;
end Set_Flag67;
procedure Set_Flag68 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag68 := Val;
end Set_Flag68;
procedure Set_Flag69 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag69 := Val;
end Set_Flag69;
procedure Set_Flag70 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag70 := Val;
end Set_Flag70;
procedure Set_Flag71 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag71 := Val;
end Set_Flag71;
procedure Set_Flag72 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Byte_Ptr
(Node_Kind_Ptr'
(Nodes.Table (N + 2).Nkind'Unrestricted_Access)).Flag72 := Val;
end Set_Flag72;
procedure Set_Flag73 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag73 := Val;
end Set_Flag73;
procedure Set_Flag74 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag74 := Val;
end Set_Flag74;
procedure Set_Flag75 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag75 := Val;
end Set_Flag75;
procedure Set_Flag76 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag76 := Val;
end Set_Flag76;
procedure Set_Flag77 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag77 := Val;
end Set_Flag77;
procedure Set_Flag78 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag78 := Val;
end Set_Flag78;
procedure Set_Flag79 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag79 := Val;
end Set_Flag79;
procedure Set_Flag80 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag80 := Val;
end Set_Flag80;
procedure Set_Flag81 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag81 := Val;
end Set_Flag81;
procedure Set_Flag82 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag82 := Val;
end Set_Flag82;
procedure Set_Flag83 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag83 := Val;
end Set_Flag83;
procedure Set_Flag84 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag84 := Val;
end Set_Flag84;
procedure Set_Flag85 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag85 := Val;
end Set_Flag85;
procedure Set_Flag86 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag86 := Val;
end Set_Flag86;
procedure Set_Flag87 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag87 := Val;
end Set_Flag87;
procedure Set_Flag88 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag88 := Val;
end Set_Flag88;
procedure Set_Flag89 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag89 := Val;
end Set_Flag89;
procedure Set_Flag90 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag90 := Val;
end Set_Flag90;
procedure Set_Flag91 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag91 := Val;
end Set_Flag91;
procedure Set_Flag92 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag92 := Val;
end Set_Flag92;
procedure Set_Flag93 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag93 := Val;
end Set_Flag93;
procedure Set_Flag94 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag94 := Val;
end Set_Flag94;
procedure Set_Flag95 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag95 := Val;
end Set_Flag95;
procedure Set_Flag96 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 2).Field12'Unrestricted_Access)).Flag96 := Val;
end Set_Flag96;
procedure Set_Flag97 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag97 := Val;
end Set_Flag97;
procedure Set_Flag98 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag98 := Val;
end Set_Flag98;
procedure Set_Flag99 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag99 := Val;
end Set_Flag99;
procedure Set_Flag100 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag100 := Val;
end Set_Flag100;
procedure Set_Flag101 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag101 := Val;
end Set_Flag101;
procedure Set_Flag102 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag102 := Val;
end Set_Flag102;
procedure Set_Flag103 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag103 := Val;
end Set_Flag103;
procedure Set_Flag104 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag104 := Val;
end Set_Flag104;
procedure Set_Flag105 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag105 := Val;
end Set_Flag105;
procedure Set_Flag106 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag106 := Val;
end Set_Flag106;
procedure Set_Flag107 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag107 := Val;
end Set_Flag107;
procedure Set_Flag108 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag108 := Val;
end Set_Flag108;
procedure Set_Flag109 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag109 := Val;
end Set_Flag109;
procedure Set_Flag110 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag110 := Val;
end Set_Flag110;
procedure Set_Flag111 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag111 := Val;
end Set_Flag111;
procedure Set_Flag112 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag112 := Val;
end Set_Flag112;
procedure Set_Flag113 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag113 := Val;
end Set_Flag113;
procedure Set_Flag114 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag114 := Val;
end Set_Flag114;
procedure Set_Flag115 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag115 := Val;
end Set_Flag115;
procedure Set_Flag116 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag116 := Val;
end Set_Flag116;
procedure Set_Flag117 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag117 := Val;
end Set_Flag117;
procedure Set_Flag118 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag118 := Val;
end Set_Flag118;
procedure Set_Flag119 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag119 := Val;
end Set_Flag119;
procedure Set_Flag120 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag120 := Val;
end Set_Flag120;
procedure Set_Flag121 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag121 := Val;
end Set_Flag121;
procedure Set_Flag122 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag122 := Val;
end Set_Flag122;
procedure Set_Flag123 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag123 := Val;
end Set_Flag123;
procedure Set_Flag124 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag124 := Val;
end Set_Flag124;
procedure Set_Flag125 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag125 := Val;
end Set_Flag125;
procedure Set_Flag126 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag126 := Val;
end Set_Flag126;
procedure Set_Flag127 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag127 := Val;
end Set_Flag127;
procedure Set_Flag128 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word2_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field12'Unrestricted_Access)).Flag128 := Val;
end Set_Flag128;
procedure Set_Flag129 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).In_List := Val;
end Set_Flag129;
procedure Set_Flag130 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Unused_1 := Val;
end Set_Flag130;
procedure Set_Flag131 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Rewrite_Ins := Val;
end Set_Flag131;
procedure Set_Flag132 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Analyzed := Val;
end Set_Flag132;
procedure Set_Flag133 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Comes_From_Source := Val;
end Set_Flag133;
procedure Set_Flag134 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Error_Posted := Val;
end Set_Flag134;
procedure Set_Flag135 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag4 := Val;
end Set_Flag135;
procedure Set_Flag136 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag5 := Val;
end Set_Flag136;
procedure Set_Flag137 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag6 := Val;
end Set_Flag137;
procedure Set_Flag138 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag7 := Val;
end Set_Flag138;
procedure Set_Flag139 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag8 := Val;
end Set_Flag139;
procedure Set_Flag140 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag9 := Val;
end Set_Flag140;
procedure Set_Flag141 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag10 := Val;
end Set_Flag141;
procedure Set_Flag142 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag11 := Val;
end Set_Flag142;
procedure Set_Flag143 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag12 := Val;
end Set_Flag143;
procedure Set_Flag144 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag13 := Val;
end Set_Flag144;
procedure Set_Flag145 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag14 := Val;
end Set_Flag145;
procedure Set_Flag146 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag15 := Val;
end Set_Flag146;
procedure Set_Flag147 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag16 := Val;
end Set_Flag147;
procedure Set_Flag148 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag17 := Val;
end Set_Flag148;
procedure Set_Flag149 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Flag18 := Val;
end Set_Flag149;
procedure Set_Flag150 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Pflag1 := Val;
end Set_Flag150;
procedure Set_Flag151 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
Nodes.Table (N + 3).Pflag2 := Val;
end Set_Flag151;
procedure Set_Flag152 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag152 := Val;
end Set_Flag152;
procedure Set_Flag153 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag153 := Val;
end Set_Flag153;
procedure Set_Flag154 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag154 := Val;
end Set_Flag154;
procedure Set_Flag155 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag155 := Val;
end Set_Flag155;
procedure Set_Flag156 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag156 := Val;
end Set_Flag156;
procedure Set_Flag157 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag157 := Val;
end Set_Flag157;
procedure Set_Flag158 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag158 := Val;
end Set_Flag158;
procedure Set_Flag159 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag159 := Val;
end Set_Flag159;
procedure Set_Flag160 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag160 := Val;
end Set_Flag160;
procedure Set_Flag161 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag161 := Val;
end Set_Flag161;
procedure Set_Flag162 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag162 := Val;
end Set_Flag162;
procedure Set_Flag163 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag163 := Val;
end Set_Flag163;
procedure Set_Flag164 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag164 := Val;
end Set_Flag164;
procedure Set_Flag165 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag165 := Val;
end Set_Flag165;
procedure Set_Flag166 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag166 := Val;
end Set_Flag166;
procedure Set_Flag167 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag167 := Val;
end Set_Flag167;
procedure Set_Flag168 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag168 := Val;
end Set_Flag168;
procedure Set_Flag169 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag169 := Val;
end Set_Flag169;
procedure Set_Flag170 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag170 := Val;
end Set_Flag170;
procedure Set_Flag171 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag171 := Val;
end Set_Flag171;
procedure Set_Flag172 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag172 := Val;
end Set_Flag172;
procedure Set_Flag173 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag173 := Val;
end Set_Flag173;
procedure Set_Flag174 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag174 := Val;
end Set_Flag174;
procedure Set_Flag175 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag175 := Val;
end Set_Flag175;
procedure Set_Flag176 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag176 := Val;
end Set_Flag176;
procedure Set_Flag177 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag177 := Val;
end Set_Flag177;
procedure Set_Flag178 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag178 := Val;
end Set_Flag178;
procedure Set_Flag179 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag179 := Val;
end Set_Flag179;
procedure Set_Flag180 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag180 := Val;
end Set_Flag180;
procedure Set_Flag181 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag181 := Val;
end Set_Flag181;
procedure Set_Flag182 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag182 := Val;
end Set_Flag182;
procedure Set_Flag183 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word3_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 3).Field11'Unrestricted_Access)).Flag183 := Val;
end Set_Flag183;
procedure Set_Flag184 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag184 := Val;
end Set_Flag184;
procedure Set_Flag185 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag185 := Val;
end Set_Flag185;
procedure Set_Flag186 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag186 := Val;
end Set_Flag186;
procedure Set_Flag187 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag187 := Val;
end Set_Flag187;
procedure Set_Flag188 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag188 := Val;
end Set_Flag188;
procedure Set_Flag189 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag189 := Val;
end Set_Flag189;
procedure Set_Flag190 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag190 := Val;
end Set_Flag190;
procedure Set_Flag191 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag191 := Val;
end Set_Flag191;
procedure Set_Flag192 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag192 := Val;
end Set_Flag192;
procedure Set_Flag193 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag193 := Val;
end Set_Flag193;
procedure Set_Flag194 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag194 := Val;
end Set_Flag194;
procedure Set_Flag195 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag195 := Val;
end Set_Flag195;
procedure Set_Flag196 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag196 := Val;
end Set_Flag196;
procedure Set_Flag197 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag197 := Val;
end Set_Flag197;
procedure Set_Flag198 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag198 := Val;
end Set_Flag198;
procedure Set_Flag199 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag199 := Val;
end Set_Flag199;
procedure Set_Flag200 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag200 := Val;
end Set_Flag200;
procedure Set_Flag201 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag201 := Val;
end Set_Flag201;
procedure Set_Flag202 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag202 := Val;
end Set_Flag202;
procedure Set_Flag203 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag203 := Val;
end Set_Flag203;
procedure Set_Flag204 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag204 := Val;
end Set_Flag204;
procedure Set_Flag205 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag205 := Val;
end Set_Flag205;
procedure Set_Flag206 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag206 := Val;
end Set_Flag206;
procedure Set_Flag207 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag207 := Val;
end Set_Flag207;
procedure Set_Flag208 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag208 := Val;
end Set_Flag208;
procedure Set_Flag209 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag209 := Val;
end Set_Flag209;
procedure Set_Flag210 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag210 := Val;
end Set_Flag210;
procedure Set_Flag211 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag211 := Val;
end Set_Flag211;
procedure Set_Flag212 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag212 := Val;
end Set_Flag212;
procedure Set_Flag213 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag213 := Val;
end Set_Flag213;
procedure Set_Flag214 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag214 := Val;
end Set_Flag214;
procedure Set_Flag215 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word4_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field11'Unrestricted_Access)).Flag215 := Val;
end Set_Flag215;
procedure Set_Flag216 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag216 := Val;
end Set_Flag216;
procedure Set_Flag217 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag217 := Val;
end Set_Flag217;
procedure Set_Flag218 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag218 := Val;
end Set_Flag218;
procedure Set_Flag219 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag219 := Val;
end Set_Flag219;
procedure Set_Flag220 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag220 := Val;
end Set_Flag220;
procedure Set_Flag221 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag221 := Val;
end Set_Flag221;
procedure Set_Flag222 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag222 := Val;
end Set_Flag222;
procedure Set_Flag223 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag223 := Val;
end Set_Flag223;
procedure Set_Flag224 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag224 := Val;
end Set_Flag224;
procedure Set_Flag225 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag225 := Val;
end Set_Flag225;
procedure Set_Flag226 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag226 := Val;
end Set_Flag226;
procedure Set_Flag227 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag227 := Val;
end Set_Flag227;
procedure Set_Flag228 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag228 := Val;
end Set_Flag228;
procedure Set_Flag229 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag229 := Val;
end Set_Flag229;
procedure Set_Flag230 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag230 := Val;
end Set_Flag230;
procedure Set_Flag231 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag231 := Val;
end Set_Flag231;
procedure Set_Flag232 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag232 := Val;
end Set_Flag232;
procedure Set_Flag233 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag233 := Val;
end Set_Flag233;
procedure Set_Flag234 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag234 := Val;
end Set_Flag234;
procedure Set_Flag235 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag235 := Val;
end Set_Flag235;
procedure Set_Flag236 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag236 := Val;
end Set_Flag236;
procedure Set_Flag237 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag237 := Val;
end Set_Flag237;
procedure Set_Flag238 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag238 := Val;
end Set_Flag238;
procedure Set_Flag239 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag239 := Val;
end Set_Flag239;
procedure Set_Flag240 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag240 := Val;
end Set_Flag240;
procedure Set_Flag241 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag241 := Val;
end Set_Flag241;
procedure Set_Flag242 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag242 := Val;
end Set_Flag242;
procedure Set_Flag243 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag243 := Val;
end Set_Flag243;
procedure Set_Flag244 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag244 := Val;
end Set_Flag244;
procedure Set_Flag245 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag245 := Val;
end Set_Flag245;
procedure Set_Flag246 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag246 := Val;
end Set_Flag246;
procedure Set_Flag247 (N : Node_Id; Val : Boolean) is
begin
pragma Assert (Nkind (N) in N_Entity);
To_Flag_Word5_Ptr
(Union_Id_Ptr'
(Nodes.Table (N + 4).Field12'Unrestricted_Access)).Flag247 := Val;
end Set_Flag247;
procedure Set_Node1_With_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val > Error then
Set_Parent (N => Val, Val => N);
end if;
Set_Node1 (N, Val);
end Set_Node1_With_Parent;
procedure Set_Node2_With_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val > Error then
Set_Parent (N => Val, Val => N);
end if;
Set_Node2 (N, Val);
end Set_Node2_With_Parent;
procedure Set_Node3_With_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val > Error then
Set_Parent (N => Val, Val => N);
end if;
Set_Node3 (N, Val);
end Set_Node3_With_Parent;
procedure Set_Node4_With_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val > Error then
Set_Parent (N => Val, Val => N);
end if;
Set_Node4 (N, Val);
end Set_Node4_With_Parent;
procedure Set_Node5_With_Parent (N : Node_Id; Val : Node_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val > Error then
Set_Parent (N => Val, Val => N);
end if;
Set_Node5 (N, Val);
end Set_Node5_With_Parent;
procedure Set_List1_With_Parent (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val /= No_List and then Val /= Error_List then
Set_Parent (Val, N);
end if;
Set_List1 (N, Val);
end Set_List1_With_Parent;
procedure Set_List2_With_Parent (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val /= No_List and then Val /= Error_List then
Set_Parent (Val, N);
end if;
Set_List2 (N, Val);
end Set_List2_With_Parent;
procedure Set_List3_With_Parent (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val /= No_List and then Val /= Error_List then
Set_Parent (Val, N);
end if;
Set_List3 (N, Val);
end Set_List3_With_Parent;
procedure Set_List4_With_Parent (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val /= No_List and then Val /= Error_List then
Set_Parent (Val, N);
end if;
Set_List4 (N, Val);
end Set_List4_With_Parent;
procedure Set_List5_With_Parent (N : Node_Id; Val : List_Id) is
begin
pragma Assert (N <= Nodes.Last);
if Val /= No_List and then Val /= Error_List then
Set_Parent (Val, N);
end if;
Set_List5 (N, Val);
end Set_List5_With_Parent;
end Unchecked_Access;
------------
-- Unlock --
------------
procedure Unlock is
begin
Nodes.Locked := False;
Orig_Nodes.Locked := False;
end Unlock;
end Atree;
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