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308 lines
7.0 KiB
C
308 lines
7.0 KiB
C
/*******************************************************************
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** s t a c k . c
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** Forth Inspired Command Language
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** Author: John Sadler (john_sadler@alum.mit.edu)
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** Created: 16 Oct 1997
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**
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*******************************************************************/
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/* $FreeBSD$ */
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#ifdef TESTMAIN
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#include <stdlib.h>
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#else
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#include <stand.h>
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#endif
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#include "ficl.h"
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#define STKDEPTH(s) ((s)->sp - (s)->base)
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/*
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** N O T E: Stack convention:
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**
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** sp points to the first available cell
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** push: store value at sp, increment sp
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** pop: decrement sp, fetch value at sp
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** Stack grows from low to high memory
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*/
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/*******************************************************************
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v m C h e c k S t a c k
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** Check the parameter stack for underflow or overflow.
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** nCells controls the type of check: if nCells is zero,
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** the function checks the stack state for underflow and overflow.
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** If nCells > 0, checks to see that the stack has room to push
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** that many cells. If less than zero, checks to see that the
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** stack has room to pop that many cells. If any test fails,
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** the function throws (via vmThrow) a VM_ERREXIT exception.
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*******************************************************************/
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void vmCheckStack(FICL_VM *pVM, int popCells, int pushCells)
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{
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FICL_STACK *pStack = pVM->pStack;
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int nFree = pStack->base + pStack->nCells - pStack->sp;
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if (popCells > STKDEPTH(pStack))
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{
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vmThrowErr(pVM, "Error: stack underflow");
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}
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if (nFree < pushCells - popCells)
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{
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vmThrowErr(pVM, "Error: stack overflow");
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}
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return;
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}
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/*******************************************************************
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s t a c k C r e a t e
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**
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*******************************************************************/
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FICL_STACK *stackCreate(unsigned nCells)
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{
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size_t size = sizeof (FICL_STACK) + nCells * sizeof (CELL);
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FICL_STACK *pStack = ficlMalloc(size);
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#if FICL_ROBUST
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assert (nCells != 0);
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assert (pStack != NULL);
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#endif
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pStack->nCells = nCells;
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pStack->sp = pStack->base;
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pStack->pFrame = NULL;
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return pStack;
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}
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/*******************************************************************
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s t a c k D e l e t e
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**
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*******************************************************************/
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void stackDelete(FICL_STACK *pStack)
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{
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if (pStack)
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ficlFree(pStack);
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return;
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}
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/*******************************************************************
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s t a c k D e p t h
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**
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*******************************************************************/
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int stackDepth(FICL_STACK *pStack)
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{
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return STKDEPTH(pStack);
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}
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/*******************************************************************
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s t a c k D r o p
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**
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*******************************************************************/
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void stackDrop(FICL_STACK *pStack, int n)
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{
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#if FICL_ROBUST
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assert(n > 0);
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#endif
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pStack->sp -= n;
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return;
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}
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/*******************************************************************
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s t a c k F e t c h
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**
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*******************************************************************/
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CELL stackFetch(FICL_STACK *pStack, int n)
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{
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return pStack->sp[-n-1];
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}
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void stackStore(FICL_STACK *pStack, int n, CELL c)
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{
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pStack->sp[-n-1] = c;
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return;
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}
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/*******************************************************************
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s t a c k G e t T o p
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**
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*******************************************************************/
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CELL stackGetTop(FICL_STACK *pStack)
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{
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return pStack->sp[-1];
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}
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/*******************************************************************
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s t a c k L i n k
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** Link a frame using the stack's frame pointer. Allot space for
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** nCells cells in the frame
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** 1) Push pFrame
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** 2) pFrame = sp
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** 3) sp += nCells
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*******************************************************************/
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void stackLink(FICL_STACK *pStack, int nCells)
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{
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stackPushPtr(pStack, pStack->pFrame);
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pStack->pFrame = pStack->sp;
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pStack->sp += nCells;
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return;
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}
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/*******************************************************************
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s t a c k U n l i n k
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** Unink a stack frame previously created by stackLink
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** 1) sp = pFrame
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** 2) pFrame = pop()
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*******************************************************************/
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void stackUnlink(FICL_STACK *pStack)
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{
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pStack->sp = pStack->pFrame;
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pStack->pFrame = stackPopPtr(pStack);
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return;
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}
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/*******************************************************************
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s t a c k P i c k
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**
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*******************************************************************/
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void stackPick(FICL_STACK *pStack, int n)
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{
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stackPush(pStack, stackFetch(pStack, n));
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return;
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}
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/*******************************************************************
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s t a c k P o p
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**
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*******************************************************************/
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CELL stackPop(FICL_STACK *pStack)
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{
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return *--pStack->sp;
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}
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void *stackPopPtr(FICL_STACK *pStack)
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{
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return (*--pStack->sp).p;
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}
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FICL_UNS stackPopUNS(FICL_STACK *pStack)
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{
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return (*--pStack->sp).u;
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}
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FICL_INT stackPopINT(FICL_STACK *pStack)
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{
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return (*--pStack->sp).i;
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}
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/*******************************************************************
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s t a c k P u s h
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**
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*******************************************************************/
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void stackPush(FICL_STACK *pStack, CELL c)
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{
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*pStack->sp++ = c;
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}
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void stackPushPtr(FICL_STACK *pStack, void *ptr)
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{
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*pStack->sp++ = LVALUEtoCELL(ptr);
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}
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void stackPushUNS(FICL_STACK *pStack, FICL_UNS u)
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{
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*pStack->sp++ = LVALUEtoCELL(u);
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}
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void stackPushINT(FICL_STACK *pStack, FICL_INT i)
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{
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*pStack->sp++ = LVALUEtoCELL(i);
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}
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/*******************************************************************
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s t a c k R e s e t
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**
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*******************************************************************/
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void stackReset(FICL_STACK *pStack)
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{
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pStack->sp = pStack->base;
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return;
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}
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/*******************************************************************
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s t a c k R o l l
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** Roll nth stack entry to the top (counting from zero), if n is
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** >= 0. Drop other entries as needed to fill the hole.
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** If n < 0, roll top-of-stack to nth entry, pushing others
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** upward as needed to fill the hole.
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*******************************************************************/
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void stackRoll(FICL_STACK *pStack, int n)
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{
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CELL c;
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CELL *pCell;
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if (n == 0)
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return;
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else if (n > 0)
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{
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pCell = pStack->sp - n - 1;
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c = *pCell;
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for (;n > 0; --n, pCell++)
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{
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*pCell = pCell[1];
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}
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*pCell = c;
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}
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else
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{
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pCell = pStack->sp - 1;
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c = *pCell;
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for (; n < 0; ++n, pCell--)
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{
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*pCell = pCell[-1];
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}
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*pCell = c;
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}
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return;
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}
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/*******************************************************************
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s t a c k S e t T o p
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**
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*******************************************************************/
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void stackSetTop(FICL_STACK *pStack, CELL c)
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{
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pStack->sp[-1] = c;
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return;
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}
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