freebsd-skq/sys/boot/ficl/ficl.c

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/*******************************************************************
** f i c l . c
** Forth Inspired Command Language - external interface
** Author: John Sadler (john_sadler@alum.mit.edu)
** Created: 19 July 1997
**
*******************************************************************/
/*
** This is an ANS Forth interpreter written in C.
** Ficl uses Forth syntax for its commands, but turns the Forth
** model on its head in other respects.
** Ficl provides facilities for interoperating
** with programs written in C: C functions can be exported to Ficl,
** and Ficl commands can be executed via a C calling interface. The
** interpreter is re-entrant, so it can be used in multiple instances
** in a multitasking system. Unlike Forth, Ficl's outer interpreter
** expects a text block as input, and returns to the caller after each
** text block, so the data pump is somewhere in external code. This
** is more like TCL than Forth.
**
** Code is written in ANSI C for portability.
*/
/* $FreeBSD$ */
#ifdef TESTMAIN
#include <stdlib.h>
#else
#include <stand.h>
#endif
#include <string.h>
#include "ficl.h"
#ifdef FICL_TRACE
int ficl_trace = 0;
#endif
/*
** Local prototypes
*/
/*
** System statics
** The system builds a global dictionary during its start
** sequence. This is shared by all interpreter instances.
** Therefore only one instance can update the dictionary
** at a time. The system imports a locking function that
** you can override in order to control update access to
** the dictionary. The function is stubbed out by default,
** but you can insert one: #define FICL_MULTITHREAD 1
** and supply your own version of ficlLockDictionary.
*/
static FICL_DICT *dp = NULL;
static FICL_DICT *envp = NULL;
#if FICL_WANT_LOCALS
static FICL_DICT *localp = NULL;
#endif
static FICL_VM *vmList = NULL;
static int defaultStack = FICL_DEFAULT_STACK;
static int defaultDict = FICL_DEFAULT_DICT;
/**************************************************************************
f i c l I n i t S y s t e m
** Binds a global dictionary to the interpreter system.
** You specify the address and size of the allocated area.
** After that, ficl manages it.
** First step is to set up the static pointers to the area.
** Then write the "precompiled" portion of the dictionary in.
** The dictionary needs to be at least large enough to hold the
** precompiled part. Try 1K cells minimum. Use "words" to find
** out how much of the dictionary is used at any time.
**************************************************************************/
void ficlInitSystem(int nDictCells)
{
if (dp)
dictDelete(dp);
if (envp)
dictDelete(envp);
#if FICL_WANT_LOCALS
if (localp)
dictDelete(localp);
#endif
if (nDictCells <= 0)
nDictCells = defaultDict;
dp = dictCreateHashed((unsigned)nDictCells, HASHSIZE);
envp = dictCreate( (unsigned)FICL_DEFAULT_ENV);
#if FICL_WANT_LOCALS
/*
** The locals dictionary is only searched while compiling,
** but this is where speed is most important. On the other
** hand, the dictionary gets emptied after each use of locals
** The need to balance search speed with the cost of the empty
** operation led me to select a single-threaded list...
*/
localp = dictCreate( (unsigned)FICL_MAX_LOCALS * CELLS_PER_WORD);
#endif
ficlCompileCore(dp);
return;
}
/**************************************************************************
f i c l N e w V M
** Create a new virtual machine and link it into the system list
** of VMs for later cleanup by ficlTermSystem. If this is the first
** VM to be created, use it to compile the words in softcore.c
**************************************************************************/
FICL_VM *ficlNewVM(void)
{
FICL_VM *pVM = vmCreate(NULL, defaultStack, defaultStack);
pVM->link = vmList;
/*
** Borrow the first vm to build the soft words in softcore.c
*/
if (vmList == NULL)
ficlCompileSoftCore(pVM);
vmList = pVM;
return pVM;
}
/**************************************************************************
f i c l F r e e V M
** Removes the VM in question from the system VM list and deletes the
** memory allocated to it. This is an optional call, since ficlTermSystem
** will do this cleanup for you. This function is handy if you're going to
** do a lot of dynamic creation of VMs.
**************************************************************************/
void ficlFreeVM(FICL_VM *pVM)
{
FICL_VM *pList = vmList;
assert(pVM != 0);
if (vmList == pVM)
{
vmList = vmList->link;
}
else for (pList; pList != 0; pList = pList->link)
{
if (pList->link == pVM)
{
pList->link = pVM->link;
break;
}
}
if (pList)
vmDelete(pVM);
return;
}
/**************************************************************************
f i c l B u i l d
** Builds a word into the dictionary.
** Preconditions: system must be initialized, and there must
** be enough space for the new word's header! Operation is
** controlled by ficlLockDictionary, so any initialization
** required by your version of the function (if you overrode
** it) must be complete at this point.
** Parameters:
** name -- duh, the name of the word
** code -- code to execute when the word is invoked - must take a single param
** pointer to a FICL_VM
** flags -- 0 or more of F_IMMEDIATE, F_COMPILE, use bitwise OR!
**
**************************************************************************/
int ficlBuild(char *name, FICL_CODE code, char flags)
{
int err = ficlLockDictionary(TRUE);
if (err) return err;
assert(dictCellsAvail(dp) > sizeof (FICL_WORD) / sizeof (CELL));
dictAppendWord(dp, name, code, flags);
ficlLockDictionary(FALSE);
return 0;
}
/**************************************************************************
f i c l E x e c
** Evaluates a block of input text in the context of the
** specified interpreter. Emits any requested output to the
** interpreter's output function.
**
** Contains the "inner interpreter" code in a tight loop
**
** Returns one of the VM_XXXX codes defined in ficl.h:
** VM_OUTOFTEXT is the normal exit condition
** VM_ERREXIT means that the interp encountered a syntax error
** and the vm has been reset to recover (some or all
** of the text block got ignored
** VM_USEREXIT means that the user executed the "bye" command
** to shut down the interpreter. This would be a good
** time to delete the vm, etc -- or you can ignore this
** signal.
**************************************************************************/
int ficlExec(FICL_VM *pVM, char *pText)
{
return ficlExecC(pVM, pText, -1);
}
int ficlExecC(FICL_VM *pVM, char *pText, FICL_INT size)
{
static FICL_WORD *pInterp = NULL;
int except;
jmp_buf vmState;
jmp_buf *oldState;
TIB saveTib;
if (!pInterp)
pInterp = ficlLookup("interpret");
assert(pInterp);
assert(pVM);
if (size < 0)
size = strlen(pText);
vmPushTib(pVM, pText, size, &saveTib);
/*
** Save and restore VM's jmp_buf to enable nested calls to ficlExec
*/
oldState = pVM->pState;
pVM->pState = &vmState; /* This has to come before the setjmp! */
except = setjmp(vmState);
switch (except)
{
case 0:
if (pVM->fRestart)
{
pVM->fRestart = 0;
pVM->runningWord->code(pVM);
}
else
{ /* set VM up to interpret text */
vmPushIP(pVM, &pInterp);
}
vmInnerLoop(pVM);
break;
case VM_RESTART:
pVM->fRestart = 1;
except = VM_OUTOFTEXT;
break;
case VM_OUTOFTEXT:
vmPopIP(pVM);
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#ifdef TESTMAIN
if ((pVM->state != COMPILE) && (pVM->sourceID.i == 0))
ficlTextOut(pVM, FICL_PROMPT, 0);
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#endif
break;
case VM_USEREXIT:
case VM_INNEREXIT:
break;
case VM_QUIT:
if (pVM->state == COMPILE)
{
dictAbortDefinition(dp);
#if FICL_WANT_LOCALS
dictEmpty(localp, localp->pForthWords->size);
#endif
}
vmQuit(pVM);
break;
case VM_ERREXIT:
case VM_ABORT:
case VM_ABORTQ:
default: /* user defined exit code?? */
if (pVM->state == COMPILE)
{
dictAbortDefinition(dp);
#if FICL_WANT_LOCALS
dictEmpty(localp, localp->pForthWords->size);
#endif
}
dictResetSearchOrder(dp);
vmReset(pVM);
break;
}
pVM->pState = oldState;
vmPopTib(pVM, &saveTib);
return (except);
}
/**************************************************************************
f i c l E x e c F D
** reads in text from file fd and passes it to ficlExec()
* returns VM_OUTOFTEXT on success or the ficlExec() error code on
* failure.
*/
#define nLINEBUF 256
int ficlExecFD(FICL_VM *pVM, int fd)
{
char cp[nLINEBUF];
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int nLine = 0, rval = VM_OUTOFTEXT;
char ch;
CELL id;
id = pVM->sourceID;
pVM->sourceID.i = fd;
/* feed each line to ficlExec */
while (1) {
int status, i;
i = 0;
while ((status = read(fd, &ch, 1)) > 0 && ch != '\n')
cp[i++] = ch;
nLine++;
if (!i) {
if (status < 1)
break;
continue;
}
rval = ficlExecC(pVM, cp, i);
if(rval != VM_QUIT && rval != VM_USEREXIT && rval != VM_OUTOFTEXT)
{
pVM->sourceID = id;
return rval;
}
}
/*
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** Pass an empty line with SOURCE-ID == -1 to flush
** any pending REFILLs (as required by FILE wordset)
*/
pVM->sourceID.i = -1;
ficlExec(pVM, "");
pVM->sourceID = id;
return rval;
}
/**************************************************************************
f i c l E x e c X T
** Given a pointer to a FICL_WORD, push an inner interpreter and
** execute the word to completion. This is in contrast with vmExecute,
** which does not guarantee that the word will have completed when
** the function returns (ie in the case of colon definitions, which
** need an inner interpreter to finish)
**
** Returns one of the VM_XXXX exception codes listed in ficl.h. Normal
** exit condition is VM_INNEREXIT, ficl's private signal to exit the
** inner loop under normal circumstances. If another code is thrown to
** exit the loop, this function will re-throw it if it's nested under
** itself or ficlExec.
**
** NOTE: this function is intended so that C code can execute ficlWords
** given their address in the dictionary (xt).
**************************************************************************/
int ficlExecXT(FICL_VM *pVM, FICL_WORD *pWord)
{
static FICL_WORD *pQuit = NULL;
int except;
jmp_buf vmState;
jmp_buf *oldState;
if (!pQuit)
pQuit = ficlLookup("exit-inner");
assert(pVM);
assert(pQuit);
/*
** Save and restore VM's jmp_buf to enable nested calls
*/
oldState = pVM->pState;
pVM->pState = &vmState; /* This has to come before the setjmp! */
except = setjmp(vmState);
if (except)
vmPopIP(pVM);
else
vmPushIP(pVM, &pQuit);
switch (except)
{
case 0:
vmExecute(pVM, pWord);
vmInnerLoop(pVM);
break;
case VM_INNEREXIT:
break;
case VM_RESTART:
case VM_OUTOFTEXT:
case VM_USEREXIT:
case VM_QUIT:
case VM_ERREXIT:
case VM_ABORT:
case VM_ABORTQ:
default: /* user defined exit code?? */
if (oldState)
{
pVM->pState = oldState;
vmThrow(pVM, except);
}
break;
}
pVM->pState = oldState;
return (except);
}
/**************************************************************************
f i c l L o o k u p
** Look in the system dictionary for a match to the given name. If
** found, return the address of the corresponding FICL_WORD. Otherwise
** return NULL.
**************************************************************************/
FICL_WORD *ficlLookup(char *name)
{
STRINGINFO si;
SI_PSZ(si, name);
return dictLookup(dp, si);
}
/**************************************************************************
f i c l G e t D i c t
** Returns the address of the system dictionary
**************************************************************************/
FICL_DICT *ficlGetDict(void)
{
return dp;
}
/**************************************************************************
f i c l G e t E n v
** Returns the address of the system environment space
**************************************************************************/
FICL_DICT *ficlGetEnv(void)
{
return envp;
}
/**************************************************************************
f i c l S e t E n v
** Create an environment variable with a one-CELL payload. ficlSetEnvD
** makes one with a two-CELL payload.
**************************************************************************/
void ficlSetEnv(char *name, FICL_UNS value)
{
STRINGINFO si;
FICL_WORD *pFW;
SI_PSZ(si, name);
pFW = dictLookup(envp, si);
if (pFW == NULL)
{
dictAppendWord(envp, name, constantParen, FW_DEFAULT);
dictAppendCell(envp, LVALUEtoCELL(value));
}
else
{
pFW->param[0] = LVALUEtoCELL(value);
}
return;
}
void ficlSetEnvD(char *name, FICL_UNS hi, FICL_UNS lo)
{
FICL_WORD *pFW;
STRINGINFO si;
SI_PSZ(si, name);
pFW = dictLookup(envp, si);
if (pFW == NULL)
{
dictAppendWord(envp, name, twoConstParen, FW_DEFAULT);
dictAppendCell(envp, LVALUEtoCELL(lo));
dictAppendCell(envp, LVALUEtoCELL(hi));
}
else
{
pFW->param[0] = LVALUEtoCELL(lo);
pFW->param[1] = LVALUEtoCELL(hi);
}
return;
}
/**************************************************************************
f i c l G e t L o c
** Returns the address of the system locals dictionary. This dict is
** only used during compilation, and is shared by all VMs.
**************************************************************************/
#if FICL_WANT_LOCALS
FICL_DICT *ficlGetLoc(void)
{
return localp;
}
#endif
/**************************************************************************
f i c l S e t S t a c k S i z e
** Set the stack sizes (return and parameter) to be used for all
** subsequently created VMs. Returns actual stack size to be used.
**************************************************************************/
int ficlSetStackSize(int nStackCells)
{
if (nStackCells >= FICL_DEFAULT_STACK)
defaultStack = nStackCells;
else
defaultStack = FICL_DEFAULT_STACK;
return defaultStack;
}
/**************************************************************************
f i c l T e r m S y s t e m
** Tear the system down by deleting the dictionaries and all VMs.
** This saves you from having to keep track of all that stuff.
**************************************************************************/
void ficlTermSystem(void)
{
if (dp)
dictDelete(dp);
dp = NULL;
if (envp)
dictDelete(envp);
envp = NULL;
#if FICL_WANT_LOCALS
if (localp)
dictDelete(localp);
localp = NULL;
#endif
while (vmList != NULL)
{
FICL_VM *pVM = vmList;
vmList = vmList->link;
vmDelete(pVM);
}
return;
}