MultiSource/Applications/SPASS/ras.h - llvm-test-suite - Git at Google

 /**************************************************************/
 /* ********************************************************** */
 /* *                                                        * */
 /* *             RANDOM ACCESS STACK                        * */
 /* *                                                        * */
 /* *  $Module:   RAS                                        * */
 /* *                                                        * */
 /* *  Copyright (C) 1999, 2000, 2001 MPI fuer Informatik    * */
 /* *                                                        * */
 /* *  This program is free software; you can redistribute   * */
 /* *  it and/or modify it under the terms of the GNU        * */
 /* *  General Public License as published by the Free       * */
 /* *  Software Foundation; either version 2 of the License, * */
 /* *  or (at your option) any later version.                * */
 /* *                                                        * */
 /* *  This program is distributed in the hope that it will  * */
 /* *  be useful, but WITHOUT ANY WARRANTY; without even     * */
 /* *  the implied warranty of MERCHANTABILITY or FITNESS    * */
 /* *  FOR A PARTICULAR PURPOSE.  See the GNU General Public * */
 /* *  License for more details.                             * */
 /* *                                                        * */
 /* *  You should have received a copy of the GNU General    * */
 /* *  Public License along with this program; if not, write * */
 /* *  to the Free Software Foundation, Inc., 59 Temple      * */
 /* *  Place, Suite 330, Boston, MA  02111-1307  USA         * */
 /* *                                                        * */
 /* *                                                        * */
 /* $Revision$                                         * */
 /* $State$                                            * */
 /* $Date$                             * */
 /* $Author$                                       * */
 /* *                                                        * */
 /* *             Contact:                                   * */
 /* *             Christoph Weidenbach                       * */
 /* *             MPI fuer Informatik                        * */
 /* *             Stuhlsatzenhausweg 85                      * */
 /* *             66123 Saarbruecken                         * */
 /* *             Email: weidenb@mpi-sb.mpg.de               * */
 /* *             Germany                                    * */
 /* *                                                        * */
 /* ********************************************************** */
 /**************************************************************/

 #ifndef _RAS_
 #define _RAS_


 /**************************************************************/
 /* Includes                                                   */
 /**************************************************************/

 #include "misc.h"
 #include "memory.h"


 /**************************************************************/
 /* Constants and types                                        */
 /**************************************************************/

 #define ras_alloc   -1  /* index of size of allocated space */
 #define ras_top     -2  /* index of next free element */
 #define ras_head     2  /* size of stack head for management purposes */
 #define ras_stdsize 16  /* standard stack size */


 typedef POINTER *RAS;

 /* A RAS (Random Access Stack) is a pointer to an array of elements */
 /* where the actual size of the stack and its current top pointer   */
 /* are stored one and two cells before the array pointer.           */


 /**************************************************************/
 /* Inline Functions                                           */
 /**************************************************************/

 static __inline__ RAS ras_CreateWithSize(int size)
 /****************************************************************
   INPUT:   The maximal expected size of the stack to create.
   RETURNS: A new empty stack.
 *****************************************************************/
 {
   RAS result;

 #ifdef CHECK
   if (size <= 0) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_CreateWithSize: size not positive.");
     misc_FinishErrorReport();
   }
 #endif

   result            = (RAS) memory_Malloc((size + ras_head) * sizeof(POINTER));
   result            = result + ras_head;  /* leave space for head */
   result[ras_alloc] = (POINTER) size;
   result[ras_top]   = (POINTER) 0;
   return result;
 }


 static __inline__ RAS ras_Create(void)
 {
   return ras_CreateWithSize(ras_stdsize);
 }


 static __inline__ void ras_Free(RAS ras)
 {
   if (ras != NULL) {
     memory_Free (
       ras - ras_head,
       (ras_head + (int) ras[ras_alloc]) * sizeof(POINTER)
     );
   }
 }


 static __inline__ RAS ras_InitWithSize(RAS ras, int size)
 /****************************************************************
   INPUT:   A random access stack the maximal expected size of the
            stack to init.
   RETURNS: The initialized and potentially new stack.
   CAUTION: Because it potentially frees the old stack this
            function must be called inside an assignment like:
               stack = ras_InitWithSize(stack, ...)
 *****************************************************************/
 {

 #ifdef CHECK
   if (size <= 0) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_InitWithSize: size not positive.");
     misc_FinishErrorReport();
   }
 #endif

   if (size > (int) ras[ras_alloc]) {
     ras_Free(ras);
     ras = ras_CreateWithSize(size);
   }
   else
     ras[ras_top] = (POINTER) 0;
   return ras;
 }


 static __inline__ RAS ras_Init(RAS ras)
 /****************************************************************
   INPUT:   A random access stack.
   RETURNS: The initialized and potentially new stack.
   CAUTION: Because it potentially frees the old stack this
            function must be called inside an assignment like:
               stack = ras_InitWithSize(stack, ...)
 *****************************************************************/
 {
   return ras_InitWithSize(ras, ras_stdsize);
 }


 static __inline__ int ras_Size(RAS ras)
 {
   return (int) ras[ras_top];
 }


 static __inline__ RAS ras_FastPush(RAS ras, POINTER entry)
 /*********************************************************
   INPUT:   A random access stack and an element to push.
   RETURNS: The modified stack.
   CAUTION: The function does not care about stack overflow!
 **********************************************************/
 {
   int top;

 #ifdef CHECK
   if (ras_Size(ras) == (int) ras[ras_alloc]) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_FastPush: stack overflow.");
     misc_FinishErrorReport();
   }
 #endif

   top          = ras_Size(ras);
   ras[top++]   = entry;
   ras[ras_top] = (POINTER) top;
   return ras;
 }


 static __inline__ RAS ras_Push(RAS ras, POINTER entry)
 /*********************************************************
   INPUT:   A random access stack and an element to push.
   RETURNS: The modified and potentially new stack.
   SUMMARY: Before the push the stack is checked for overflow
            and in case of overflow its size is doubled while
            elements are copied to the (new) stack.
   CAUTION: Must be called inside an assignment:
               stack = ras_Push(stack, ...)
 **********************************************************/
 {
   RAS old;
   int oldsize;
   POINTER *oldscan, *scan;

   /* if not enough space allocated, double it: */
   if (ras_Size(ras) == (int) ras[ras_alloc]) {
     old          = ras;
     oldsize      = (int) old[ras_alloc];
     ras          = ras_CreateWithSize(oldsize * 2);
     ras[ras_top] = (POINTER) oldsize;

     /* copy entries: */
     for (oldscan = old + oldsize - 1,scan = ras + oldsize - 1; oldscan >= old;
         oldscan--, scan--)
       *scan = *oldscan;

     ras_Free(old);
   }

   return ras_FastPush(ras, entry);
 }


 static __inline__ BOOL ras_LegalIndex(RAS ras, int index)
 {
   return 0 <= index && index < ras_Size(ras);
 }


 static __inline__ POINTER ras_Get(RAS ras, int index)
 {
 #ifdef CHECK
   if (!ras_LegalIndex(ras, index)) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_Get: illegal stack index.");
     misc_FinishErrorReport();
   }
 #endif

   return ras[index];
 }


 static __inline__ RAS ras_Set(RAS ras, int index, POINTER entry)
 {
 #ifdef CHECK
   if (!ras_LegalIndex(ras, index)) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_Set: illegal stack index.");
     misc_FinishErrorReport();
   }
 #endif

   ras[index] = entry;
   return ras;
 }


 static __inline__ BOOL ras_Empty(RAS ras)
 {
   return ras_Size(ras) == 0;
 }


 static __inline__ POINTER ras_Pop(RAS ras)
 {
   int top;

 #ifdef CHECK
   if (ras_Empty(ras)) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_Pop: empty stack.");
     misc_FinishErrorReport();
   }
 #endif

   top          = ras_Size(ras) - 1;
   ras[ras_top] = (POINTER) top;
   return ras[top];
 }


 static __inline__ POINTER ras_Top(RAS ras)
 {
 #ifdef CHECK
   if (ras_Empty(ras)) {
     misc_StartErrorReport();
     misc_ErrorReport("\n In ras_Top: empty stack.");
     misc_FinishErrorReport();
   }
 #endif

   return ras[ras_Size(ras) - 1];
 }


 #endif
	/**************************************************************/
	/* ********************************************************** */
	/* * * */
	/* * RANDOM ACCESS STACK * */
	/* * * */
	/* * $Module: RAS * */
	/* * * */
	/* * Copyright (C) 1999, 2000, 2001 MPI fuer Informatik * */
	/* * * */
	/* * This program is free software; you can redistribute * */
	/* * it and/or modify it under the terms of the GNU * */
	/* * General Public License as published by the Free * */
	/* * Software Foundation; either version 2 of the License, * */
	/* * or (at your option) any later version. * */
	/* * * */
	/* * This program is distributed in the hope that it will * */
	/* * be useful, but WITHOUT ANY WARRANTY; without even * */
	/* * the implied warranty of MERCHANTABILITY or FITNESS * */
	/* * FOR A PARTICULAR PURPOSE. See the GNU General Public * */
	/* * License for more details. * */
	/* * * */
	/* * You should have received a copy of the GNU General * */
	/* * Public License along with this program; if not, write * */
	/* * to the Free Software Foundation, Inc., 59 Temple * */
	/* * Place, Suite 330, Boston, MA 02111-1307 USA * */
	/* * * */
	/* * * */
	/* $Revision$ * */
	/* $State$ * */
	/* $Date$ * */
	/* $Author$ * */
	/* * * */
	/* * Contact: * */
	/* * Christoph Weidenbach * */
	/* * MPI fuer Informatik * */
	/* * Stuhlsatzenhausweg 85 * */
	/* * 66123 Saarbruecken * */
	/* * Email: weidenb@mpi-sb.mpg.de * */
	/* * Germany * */
	/* * * */
	/* ********************************************************** */
	/**************************************************************/

	#ifndef _RAS_
	#define _RAS_


	/**************************************************************/
	/* Includes */
	/**************************************************************/

	#include "misc.h"
	#include "memory.h"


	/**************************************************************/
	/* Constants and types */
	/**************************************************************/

	#define ras_alloc -1 /* index of size of allocated space */
	#define ras_top -2 /* index of next free element */
	#define ras_head 2 /* size of stack head for management purposes */
	#define ras_stdsize 16 /* standard stack size */


	typedef POINTER *RAS;

	/* A RAS (Random Access Stack) is a pointer to an array of elements */
	/* where the actual size of the stack and its current top pointer */
	/* are stored one and two cells before the array pointer. */


	/**************************************************************/
	/* Inline Functions */
	/**************************************************************/

	static __inline__ RAS ras_CreateWithSize(int size)
	/****************************************************************
	INPUT: The maximal expected size of the stack to create.
	RETURNS: A new empty stack.
	*****************************************************************/
	{
	RAS result;

	#ifdef CHECK
	if (size <= 0) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_CreateWithSize: size not positive.");
	misc_FinishErrorReport();
	}
	#endif

	result = (RAS) memory_Malloc((size + ras_head) * sizeof(POINTER));
	result = result + ras_head; /* leave space for head */
	result[ras_alloc] = (POINTER) size;
	result[ras_top] = (POINTER) 0;
	return result;
	}


	static __inline__ RAS ras_Create(void)
	{
	return ras_CreateWithSize(ras_stdsize);
	}


	static __inline__ void ras_Free(RAS ras)
	{
	if (ras != NULL) {
	memory_Free (
	ras - ras_head,
	(ras_head + (int) ras[ras_alloc]) * sizeof(POINTER)
	);
	}
	}


	static __inline__ RAS ras_InitWithSize(RAS ras, int size)
	/****************************************************************
	INPUT: A random access stack the maximal expected size of the
	stack to init.
	RETURNS: The initialized and potentially new stack.
	CAUTION: Because it potentially frees the old stack this
	function must be called inside an assignment like:
	stack = ras_InitWithSize(stack, ...)
	*****************************************************************/
	{

	#ifdef CHECK
	if (size <= 0) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_InitWithSize: size not positive.");
	misc_FinishErrorReport();
	}
	#endif

	if (size > (int) ras[ras_alloc]) {
	ras_Free(ras);
	ras = ras_CreateWithSize(size);
	}
	else
	ras[ras_top] = (POINTER) 0;
	return ras;
	}


	static __inline__ RAS ras_Init(RAS ras)
	/****************************************************************
	INPUT: A random access stack.
	RETURNS: The initialized and potentially new stack.
	CAUTION: Because it potentially frees the old stack this
	function must be called inside an assignment like:
	stack = ras_InitWithSize(stack, ...)
	*****************************************************************/
	{
	return ras_InitWithSize(ras, ras_stdsize);
	}


	static __inline__ int ras_Size(RAS ras)
	{
	return (int) ras[ras_top];
	}


	static __inline__ RAS ras_FastPush(RAS ras, POINTER entry)
	/*********************************************************
	INPUT: A random access stack and an element to push.
	RETURNS: The modified stack.
	CAUTION: The function does not care about stack overflow!
	**********************************************************/
	{
	int top;

	#ifdef CHECK
	if (ras_Size(ras) == (int) ras[ras_alloc]) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_FastPush: stack overflow.");
	misc_FinishErrorReport();
	}
	#endif

	top = ras_Size(ras);
	ras[top++] = entry;
	ras[ras_top] = (POINTER) top;
	return ras;
	}


	static __inline__ RAS ras_Push(RAS ras, POINTER entry)
	/*********************************************************
	INPUT: A random access stack and an element to push.
	RETURNS: The modified and potentially new stack.
	SUMMARY: Before the push the stack is checked for overflow
	and in case of overflow its size is doubled while
	elements are copied to the (new) stack.
	CAUTION: Must be called inside an assignment:
	stack = ras_Push(stack, ...)
	**********************************************************/
	{
	RAS old;
	int oldsize;
	POINTER oldscan, scan;

	/* if not enough space allocated, double it: */
	if (ras_Size(ras) == (int) ras[ras_alloc]) {
	old = ras;
	oldsize = (int) old[ras_alloc];
	ras = ras_CreateWithSize(oldsize * 2);
	ras[ras_top] = (POINTER) oldsize;

	/* copy entries: */
	for (oldscan = old + oldsize - 1,scan = ras + oldsize - 1; oldscan >= old;
	oldscan--, scan--)
	scan = oldscan;

	ras_Free(old);
	}

	return ras_FastPush(ras, entry);
	}


	static __inline__ BOOL ras_LegalIndex(RAS ras, int index)
	{
	return 0 <= index && index < ras_Size(ras);
	}


	static __inline__ POINTER ras_Get(RAS ras, int index)
	{
	#ifdef CHECK
	if (!ras_LegalIndex(ras, index)) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_Get: illegal stack index.");
	misc_FinishErrorReport();
	}
	#endif

	return ras[index];
	}


	static __inline__ RAS ras_Set(RAS ras, int index, POINTER entry)
	{
	#ifdef CHECK
	if (!ras_LegalIndex(ras, index)) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_Set: illegal stack index.");
	misc_FinishErrorReport();
	}
	#endif

	ras[index] = entry;
	return ras;
	}


	static __inline__ BOOL ras_Empty(RAS ras)
	{
	return ras_Size(ras) == 0;
	}


	static __inline__ POINTER ras_Pop(RAS ras)
	{
	int top;

	#ifdef CHECK
	if (ras_Empty(ras)) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_Pop: empty stack.");
	misc_FinishErrorReport();
	}
	#endif

	top = ras_Size(ras) - 1;
	ras[ras_top] = (POINTER) top;
	return ras[top];
	}


	static __inline__ POINTER ras_Top(RAS ras)
	{
	#ifdef CHECK
	if (ras_Empty(ras)) {
	misc_StartErrorReport();
	misc_ErrorReport("\n In ras_Top: empty stack.");
	misc_FinishErrorReport();
	}
	#endif

	return ras[ras_Size(ras) - 1];
	}


	#endif