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|
(* LIFO Storage Library
*
* @file LIFO.mod
* LIFO implementation
*
* Universal Dynamic Stack
*
* Author: Benjamin Kowarsch
*
* Copyright (C) 2009 Benjamin Kowarsch. All rights reserved.
*
* License:
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met
*
* 1) NO FEES may be charged for the provision of the software. The software
* may NOT be published on websites that contain advertising, unless
* specific prior written permission has been obtained.
*
* 2) Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 3) Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and other materials provided with the distribution.
*
* 4) Neither the author's name nor the names of any contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* 5) Where this list of conditions or the following disclaimer, in part or
* as a whole is overruled or nullified by applicable law, no permission
* is granted to use the software.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*)
IMPLEMENTATION (* OF *) MODULE LIFO;
FROM SYSTEM IMPORT ADDRESS, ADR, TSIZE;
FROM Storage IMPORT ALLOCATE, DEALLOCATE;
(* ---------------------------------------------------------------------------
// Private type : ListEntry
// ---------------------------------------------------------------------------
*)
TYPE ListPtr = POINTER TO ListEntry;
TYPE ListEntry = RECORD
value : DataPtr;
next : ListPtr
END; (* ListEntry *)
(* ---------------------------------------------------------------------------
// Opaque type : LIFO.Stack
// ---------------------------------------------------------------------------
// CAUTION: Modula-2 does not support the use of variable length array fields
// in records. VLAs can only be implemented using pointer arithmetic which
// means there is no type checking and no boundary checking on the array.
// It also means that array notation cannot be used on the array which makes
// the code difficult to read and maintain. As a result, Modula-2 is less
// safe and less readable than C when it comes to using VLAs. Great care must
// be taken to make sure that the code accessing VLA fields is safe. Boundary
// checks must be inserted manually. Size checks must be inserted manually to
// compensate for the absence of type checks. *)
TYPE Stack = POINTER TO StackDescriptor;
TYPE StackDescriptor = RECORD
overflow : ListPtr;
entryCount : StackSize;
arraySize : StackSize;
array : ADDRESS (* ARRAY OF DataPtr *)
END; (* StackDescriptor *)
(* ---------------------------------------------------------------------------
// function: LIFO.new( initial_size, status )
// ---------------------------------------------------------------------------
//
// Creates and returns a new LIFO stack object with an initial capacity of
// <initialSize>. If zero is passed in for <initialSize>, then the stack
// will be created with an initial capacity of LIFO.defaultStackSize. The
// function fails if a value greater than LIFO.maximumStackSize is passed
// in for <initialSize> or if memory could not be allocated.
//
// The initial capacity of a stack is the number of entries that can be stored
// in the stack without enlargement.
//
// The status of the operation is passed back in <status>. *)
PROCEDURE new ( initialSize : StackSize; VAR status : Status ) : Stack;
VAR
newStack : Stack;
BEGIN
(* zero size means default *)
IF initialSize = 0 THEN
initialSize := defaultStackSize;
END; (* IF *)
(* bail out if initial size is too high *)
IF initialSize > maximumStackSize THEN
status := invalidSize;
RETURN NIL;
END; (* IF *)
(* allocate new stack object *)
ALLOCATE(newStack, TSIZE(Stack) + TSIZE(DataPtr) * (initialSize - 1));
(* bail out if allocation failed *)
IF newStack = NIL THEN
status := allocationFailed;
RETURN NIL;
END; (* IF *)
(* initialise meta data *)
newStack^.arraySize := initialSize;
newStack^.entryCount := 0;
newStack^.overflow := NIL;
(* pass status and new stack to caller *)
status := success;
RETURN newStack
END new;
(* ---------------------------------------------------------------------------
// function: LIFO.push( stack, value, status )
// ---------------------------------------------------------------------------
//
// Adds a new entry <value> to the top of stack <stack>. The new entry is
// added by reference, no data is copied. However, no entry is added if the
// the stack is full, that is when the number of entries stored in the stack
// has reached LIFO.maximumStackSize. The function fails if NIL is passed in
// for <stack> or <value>, or if memory could not be allocated.
//
// New entries are allocated dynamically if the number of entries exceeds the
// initial capacity of the stack.
//
// The status of the operation is passed back in <status>. *)
PROCEDURE push ( VAR stack : Stack; value : DataPtr; VAR status : Status );
VAR
newEntry : ListPtr;
valuePtr : POINTER TO DataPtr;
BEGIN
(* bail out if stack is NIL *)
IF stack = NIL THEN
status := invalidStack;
RETURN;
END; (* IF *)
(* bail out if value is NIL *)
IF value = NIL THEN
status := invalidData;
RETURN;
END; (* IF *)
(* bail out if stack is full *)
IF stack^.entryCount >= maximumStackSize THEN
status := stackFull;
RETURN;
END; (* IF *)
(* check if index falls within array segment *)
IF stack^.entryCount < stack^.arraySize THEN
(* store value in array segment *)
(* stack^.array^[stack^.entryCount] := value; *)
valuePtr := ADR(stack^.array) + TSIZE(DataPtr) * stack^.entryCount;
valuePtr^ := value;
ELSE (* index falls within overflow segment *)
(* allocate new entry slot *)
NEW(newEntry);
(* bail out if allocation failed *)
IF newEntry = NIL THEN
status := allocationFailed;
RETURN;
END; (* IF *)
(* initialise new entry *)
newEntry^.value := value;
(* link new entry into overflow list *)
newEntry^.next := stack^.overflow;
stack^.overflow := newEntry;
END; (* IF *)
(* update entry counter *)
INC(stack^.entryCount);
(* pass status to caller *)
status := success;
RETURN
END push;
(* ---------------------------------------------------------------------------
// function: LIFO.pop( stack, status )
// ---------------------------------------------------------------------------
//
// Removes the top most value from stack <stack> and returns it. If the stack
// is empty, that is when the number of entries stored in the stack has
// reached zero, then NIL is returned.
//
// Entries which were allocated dynamically (above the initial capacity) are
// deallocated when their values are popped.
//
// The status of the operation is passed back in <status>. *)
PROCEDURE pop ( VAR stack : Stack; VAR status : Status ) : DataPtr;
VAR
thisValue : DataPtr;
thisEntry : ListPtr;
valuePtr : POINTER TO DataPtr;
BEGIN
(* bail out if stack is NIL *)
IF stack = NIL THEN
status := invalidStack;
RETURN NIL;
END; (* IF *)
(* bail out if stack is empty *)
IF stack^.entryCount = 0 THEN
status := stackEmpty;
RETURN NIL;
END; (* IF *)
DEC(stack^.entryCount);
(* check if index falls within array segment *)
IF stack^.entryCount < stack^.arraySize THEN
(* obtain value at index entryCount in array segment *)
(* thisValue := stack^.array^[stack^.entryCount]; *)
valuePtr := ADR(stack^.array) + TSIZE(DataPtr) * stack^.entryCount;
thisValue := valuePtr^;
ELSE (* index falls within overflow segment *)
(* obtain value of first entry in overflow list *)
thisValue := stack^.overflow^.value;
(* isolate first entry in overflow list *)
thisEntry := stack^.overflow;
stack^.overflow := stack^.overflow^.next;
(* remove the entry from overflow list *)
DISPOSE(thisEntry);
END; (* IF *)
(* return value and status to caller *)
status := success;
RETURN thisValue
END pop;
(* ---------------------------------------------------------------------------
// function: LIFO.stackSize( stack )
// ---------------------------------------------------------------------------
//
// Returns the current capacity of <stack>. The current capacity is the total
// number of allocated entries. Returns zero if NIL is passed in for <stack>.
*)
PROCEDURE stackSize( VAR stack : Stack ) : StackSize;
BEGIN
(* bail out if stack is NIL *)
IF stack = NIL THEN
RETURN 0;
END; (* IF *)
IF stack^.entryCount < stack^.arraySize THEN
RETURN stack^.arraySize;
ELSE
RETURN stack^.entryCount;
END; (* IF *)
END stackSize;
(* ---------------------------------------------------------------------------
// function: LIFO.stackEntries( stack )
// ---------------------------------------------------------------------------
//
// Returns the number of entries stored in stack <stack>, returns zero if
// NIL is passed in for <stack>. *)
PROCEDURE stackEntries( VAR stack : Stack ) : StackSize;
BEGIN
(* bail out if stack is NIL *)
IF stack = NIL THEN
RETURN 0;
END; (* IF *)
RETURN stack^.entryCount
END stackEntries;
(* ---------------------------------------------------------------------------
// function: LIFO.dispose( stack )
// ---------------------------------------------------------------------------
//
// Disposes of LIFO stack object <stack>. Returns NIL. *)
PROCEDURE dispose ( VAR stack : Stack ) : Stack;
VAR
thisEntry : ListPtr;
BEGIN
(* bail out if stack is NIL *)
IF stack = NIL THEN
RETURN NIL;
END; (* IF *)
(* deallocate any entries in stack's overflow list *)
WHILE stack^.overflow # NIL DO
(* isolate first entry in overflow list *)
thisEntry := stack^.overflow;
stack^.overflow := stack^.overflow^.next;
(* deallocate the entry *)
DISPOSE(thisEntry);
END; (* WHILE *)
(* deallocate stack object and pass NIL to caller *)
DEALLOCATE(stack, TSIZE(Stack) + TSIZE(DataPtr) * (stack^.arraySize - 1));
RETURN NIL
END dispose;
END LIFO.
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