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(* RTentity.mod implements a grouping of different opaque types.
Copyright (C) 2008-2023 Free Software Foundation, Inc.
Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.
This file is part of GNU Modula-2.
GNU Modula-2 is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GNU Modula-2 is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. *)
IMPLEMENTATION MODULE RTentity ;
FROM libc IMPORT malloc, free ;
FROM M2RTS IMPORT Halt ;
FROM RTco IMPORT init, initSemaphore, wait, signal ;
TYPE
Group = POINTER TO RECORD
left, right: Group ;
entity : SYSTEM.ADDRESS ;
entityKey : CARDINAL ;
END ;
PROCEDURE InitGroup () : Group ;
VAR
g: Group ;
BEGIN
checkInitialized ;
wait (mutex) ;
g := malloc (SIZE (g^)) ;
WITH g^ DO
left := NIL ;
right := NIL ;
entity := NIL ;
entityKey := 0
END ;
signal (mutex) ;
RETURN g
END InitGroup ;
(*
killGroup -
*)
PROCEDURE killGroup (g: Group) : Group ;
BEGIN
IF g # NIL
THEN
WITH g^ DO
left := killGroup (left) ;
right := killGroup (right)
END ;
free (g)
END ;
RETURN NIL
END killGroup ;
PROCEDURE KillGroup (g: Group) : Group ;
BEGIN
wait (mutex) ;
g := killGroup (g) ;
signal (mutex) ;
RETURN g
END KillGroup ;
PROCEDURE GetKey (g: Group; a: SYSTEM.ADDRESS) : CARDINAL ;
VAR
parent,
child : Group ;
BEGIN
assert (initialized) ;
wait (mutex) ;
findChildAndParent (g, a, child, parent) ;
signal (mutex) ;
IF child = NIL
THEN
RETURN 0
ELSE
RETURN child^.entityKey
END
END GetKey ;
PROCEDURE PutKey (g: Group; a: SYSTEM.ADDRESS; key: CARDINAL) ;
VAR
parent,
child : Group ;
BEGIN
assert (initialized) ;
wait (mutex) ;
findChildAndParent (g, a, child, parent) ;
IF child = NIL
THEN
(* no child found, now is, a, less than parent or greater? *)
IF parent = g
THEN
(* empty tree, add it to the left branch of t *)
child := malloc (SIZE (child^)) ;
parent^.left := child
ELSE
(* parent is a leaf node *)
IF a < parent^.entity
THEN
child := malloc (SIZE (child^)) ;
parent^.left := child
ELSIF a > parent^.entity
THEN
child := malloc (SIZE (child^)) ;
parent^.right := child
END
END ;
WITH child^ DO
right := NIL ;
left := NIL ;
entity := a ;
entityKey := key
END
ELSE
Halt ('internal runtime error, entity already stored',
__FILE__, __FUNCTION__, __LINE__)
END ;
signal (mutex)
END PutKey ;
PROCEDURE IsIn (g: Group; a: SYSTEM.ADDRESS) : BOOLEAN ;
VAR
child, parent: Group ;
BEGIN
assert (initialized) ;
wait (mutex) ;
findChildAndParent (g, a, child, parent) ;
signal (mutex) ;
RETURN child # NIL
END IsIn ;
(*
DelKey - deletes an entry in the binary tree.
NB in order for this to work we must
ensure that the InitGroup sets
both left and right to NIL.
*)
PROCEDURE DelKey (g: Group; a: SYSTEM.ADDRESS) ;
VAR
i, child, parent: Group ;
BEGIN
assert (initialized) ;
wait (mutex) ;
(* find parent and child of the node *)
findChildAndParent (g, a, child, parent) ;
IF (child # NIL) AND (child^.entity = a)
THEN
(* Have found the node to be deleted *)
IF parent^.right = child
THEN
(* Node is child and this is greater than the parent. *)
(* Greater being on the right. *)
(* Connect child^.left onto the parent^.right. *)
(* Connect child^.right onto the end of the right *)
(* most branch of child^.left. *)
IF child^.left # NIL
THEN
(* Scan for right most node of child^.left *)
i := child^.left ;
WHILE i^.right # NIL DO
i := i^.right
END ;
i^.right := child^.right ;
parent^.right := child^.left
ELSE
(* No child^.left node therefore link over child *)
(* (as in a single linked list) to child^.right *)
parent^.right := child^.right
END ;
free (child)
ELSE
(* assert that parent^.left=child will always be true *)
(* Perform exactly the mirror image of the above code *)
(* Connect child^.right onto the parent^.left. *)
(* Connect child^.left onto the end of the left most *)
(* branch of child^.right *)
IF child^.right # NIL
THEN
(* Scan for left most node of child^.right *)
i := child^.right ;
WHILE i^.left # NIL DO
i := i^.left
END ;
i^.left := child^.left ;
parent^.left := child^.right
ELSE
(* No child^.right node therefore link over c *)
(* (as in a single linked list) to child^.left. *)
parent^.left := child^.left
END ;
free (child)
END
ELSE
Halt('internal runtime error, trying to delete an entity which is not in the tree',
__FILE__, __FUNCTION__, __LINE__)
END ;
signal (mutex)
END DelKey ;
(*
findChildAndParent - find a node, child, in a binary tree, t, with name
equal to n. If an entry is found, parent is set
to the node above child.
*)
PROCEDURE findChildAndParent (t: Group; a: SYSTEM.ADDRESS;
VAR child, parent: Group) ;
BEGIN
(* remember to skip the sentinal value and assign parent and child *)
parent := t ;
IF t = NIL
THEN
Halt ('internal runtime error, RTentity is either corrupt or the module storage has not been initialized yet',
__FILE__, __FUNCTION__, __LINE__)
END ;
child := t^.left ;
IF child # NIL
THEN
REPEAT
IF a < child^.entity
THEN
parent := child ;
child := child^.left
ELSIF a > child^.entity
THEN
parent := child ;
child := child^.right
END
UNTIL (child = NIL) OR (a = child^.entity)
END
END findChildAndParent ;
(*
assert - simple assertion procedure.
*)
PROCEDURE assert (condition: BOOLEAN) ;
BEGIN
IF NOT condition
THEN
Halt ('internal runtime error, RTentity is either corrupt or the module storage has not been initialized yet',
__FILE__, __FUNCTION__, __LINE__)
END
END assert ;
(*
checkInitialized -
*)
PROCEDURE checkInitialized ;
VAR
result: INTEGER ;
BEGIN
IF NOT initialized
THEN
initialized := TRUE ;
result := init () ;
mutex := initSemaphore (1)
END
END checkInitialized ;
VAR
initialized: BOOLEAN ; (* Set to FALSE when the bss is created. *)
mutex : INTEGER ;
END RTentity.
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