lua/ldo.c
1999-03-05 17:45:01 -03:00

398 lines
10 KiB
C

/*
** $Id: ldo.c,v 1.37 1999/03/04 21:17:26 roberto Exp roberto $
** Stack and Call structure of Lua
** See Copyright Notice in lua.h
*/
#include <setjmp.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "ldo.h"
#include "lfunc.h"
#include "lgc.h"
#include "lmem.h"
#include "lobject.h"
#include "lparser.h"
#include "lstate.h"
#include "lstring.h"
#include "ltm.h"
#include "lua.h"
#include "luadebug.h"
#include "lundump.h"
#include "lvm.h"
#include "lzio.h"
#ifndef STACK_LIMIT
#define STACK_LIMIT 6000
#endif
#define STACK_UNIT 128
void luaD_init (void) {
L->stack.stack = luaM_newvector(STACK_UNIT, TObject);
L->stack.top = L->stack.stack;
L->stack.last = L->stack.stack+(STACK_UNIT-1);
}
void luaD_checkstack (int n) {
struct Stack *S = &L->stack;
if (S->last-S->top <= n) {
StkId top = S->top-S->stack;
int stacksize = (S->last-S->stack)+STACK_UNIT+n;
luaM_reallocvector(S->stack, stacksize, TObject);
S->last = S->stack+(stacksize-1);
S->top = S->stack + top;
if (stacksize >= STACK_LIMIT) { /* stack overflow? */
if (lua_stackedfunction(100) == LUA_NOOBJECT) /* 100 funcs on stack? */
lua_error("Lua2C - C2Lua overflow"); /* doesn't look like a rec. loop */
else
lua_error("stack size overflow");
}
}
}
/*
** Adjust stack. Set top to the given value, pushing NILs if needed.
*/
void luaD_adjusttop (StkId newtop) {
int diff = newtop-(L->stack.top-L->stack.stack);
if (diff <= 0)
L->stack.top += diff;
else {
luaD_checkstack(diff);
while (diff--)
ttype(L->stack.top++) = LUA_T_NIL;
}
}
/*
** Open a hole below "nelems" from the L->stack.top.
*/
void luaD_openstack (int nelems)
{
luaO_memup(L->stack.top-nelems+1, L->stack.top-nelems,
nelems*sizeof(TObject));
incr_top;
}
void luaD_lineHook (int line)
{
struct C_Lua_Stack oldCLS = L->Cstack;
StkId old_top = L->Cstack.lua2C = L->Cstack.base = L->stack.top-L->stack.stack;
L->Cstack.num = 0;
(*L->linehook)(line);
L->stack.top = L->stack.stack+old_top;
L->Cstack = oldCLS;
}
void luaD_callHook (StkId base, TProtoFunc *tf, int isreturn)
{
struct C_Lua_Stack oldCLS = L->Cstack;
StkId old_top = L->Cstack.lua2C = L->Cstack.base = L->stack.top-L->stack.stack;
L->Cstack.num = 0;
if (isreturn)
(*L->callhook)(LUA_NOOBJECT, "(return)", 0);
else {
TObject *f = L->stack.stack+base-1;
if (tf)
(*L->callhook)(Ref(f), tf->source->str, tf->lineDefined);
else
(*L->callhook)(Ref(f), "(C)", -1);
}
L->stack.top = L->stack.stack+old_top;
L->Cstack = oldCLS;
}
/*
** Call a C function.
** Cstack.num is the number of arguments; Cstack.lua2C points to the
** first argument. Returns an index to the first result from C.
*/
static StkId callC (lua_CFunction f, StkId base)
{
struct C_Lua_Stack *CS = &L->Cstack;
struct C_Lua_Stack oldCLS = *CS;
StkId firstResult;
int numarg = (L->stack.top-L->stack.stack) - base;
CS->num = numarg;
CS->lua2C = base;
CS->base = base+numarg; /* == top-stack */
if (L->callhook)
luaD_callHook(base, NULL, 0);
(*f)(); /* do the actual call */
if (L->callhook) /* func may have changed callhook */
luaD_callHook(base, NULL, 1);
firstResult = CS->base;
*CS = oldCLS;
return firstResult;
}
static StkId callCclosure (struct Closure *cl, lua_CFunction f, StkId base)
{
TObject *pbase;
int nup = cl->nelems; /* number of upvalues */
luaD_checkstack(nup);
pbase = L->stack.stack+base; /* care: previous call may change this */
/* open space for upvalues as extra arguments */
luaO_memup(pbase+nup, pbase, (L->stack.top-pbase)*sizeof(TObject));
/* copy upvalues into stack */
memcpy(pbase, cl->consts+1, nup*sizeof(TObject));
L->stack.top += nup;
return callC(f, base);
}
void luaD_callTM (TObject *f, int nParams, int nResults) {
luaD_openstack(nParams);
*(L->stack.top-nParams-1) = *f;
luaD_calln(nParams, nResults);
}
/*
** Call a function (C or Lua). The parameters must be on the L->stack.stack,
** between [L->stack.stack+base,L->stack.top). The function to be called is at L->stack.stack+base-1.
** When returns, the results are on the L->stack.stack, between [L->stack.stack+base-1,L->stack.top).
** The number of results is nResults, unless nResults=MULT_RET.
*/
void luaD_call (StkId base, int nResults)
{
StkId firstResult;
TObject *func = L->stack.stack+base-1;
int i;
switch (ttype(func)) {
case LUA_T_CPROTO:
ttype(func) = LUA_T_CMARK;
firstResult = callC(fvalue(func), base);
break;
case LUA_T_PROTO:
ttype(func) = LUA_T_PMARK;
firstResult = luaV_execute(NULL, tfvalue(func), base);
break;
case LUA_T_CLOSURE: {
Closure *c = clvalue(func);
TObject *proto = &(c->consts[0]);
ttype(func) = LUA_T_CLMARK;
firstResult = (ttype(proto) == LUA_T_CPROTO) ?
callCclosure(c, fvalue(proto), base) :
luaV_execute(c, tfvalue(proto), base);
break;
}
default: { /* func is not a function */
/* Check the tag method for invalid functions */
TObject *im = luaT_getimbyObj(func, IM_FUNCTION);
if (ttype(im) == LUA_T_NIL)
lua_error("call expression not a function");
luaD_callTM(im, (L->stack.top-L->stack.stack)-(base-1), nResults);
return;
}
}
/* adjust the number of results */
if (nResults != MULT_RET)
luaD_adjusttop(firstResult+nResults);
/* move results to base-1 (to erase parameters and function) */
base--;
nResults = L->stack.top - (L->stack.stack+firstResult); /* actual number of results */
for (i=0; i<nResults; i++)
*(L->stack.stack+base+i) = *(L->stack.stack+firstResult+i);
L->stack.top -= firstResult-base;
}
void luaD_calln (int nArgs, int nResults) {
luaD_call((L->stack.top-L->stack.stack)-nArgs, nResults);
}
/*
** Traverse all objects on L->stack.stack
*/
void luaD_travstack (int (*fn)(TObject *))
{
StkId i;
for (i = (L->stack.top-1)-L->stack.stack; i>=0; i--)
fn(L->stack.stack+i);
}
static void message (char *s) {
TObject *em = &(luaS_new("_ERRORMESSAGE")->u.s.globalval);
if (ttype(em) == LUA_T_PROTO || ttype(em) == LUA_T_CPROTO ||
ttype(em) == LUA_T_CLOSURE) {
*L->stack.top = *em;
incr_top;
lua_pushstring(s);
luaD_calln(1, 0);
}
}
/*
** Reports an error, and jumps up to the available recover label
*/
void lua_error (char *s) {
if (s) message(s);
if (L->errorJmp)
longjmp(*((jmp_buf *)L->errorJmp), 1);
else {
message("exit(1). Unable to recover.\n");
exit(1);
}
}
/*
** Call the function at L->Cstack.base, and incorporate results on
** the Lua2C structure.
*/
static void do_callinc (int nResults)
{
StkId base = L->Cstack.base;
luaD_call(base+1, nResults);
L->Cstack.lua2C = base; /* position of the new results */
L->Cstack.num = (L->stack.top-L->stack.stack) - base; /* number of results */
L->Cstack.base = base + L->Cstack.num; /* incorporate results on stack */
}
/*
** Execute a protected call. Assumes that function is at L->Cstack.base and
** parameters are on top of it. Leave nResults on the stack.
*/
int luaD_protectedrun (int nResults) {
volatile struct C_Lua_Stack oldCLS = L->Cstack;
jmp_buf myErrorJmp;
volatile int status;
jmp_buf *volatile oldErr = L->errorJmp;
L->errorJmp = &myErrorJmp;
if (setjmp(myErrorJmp) == 0) {
do_callinc(nResults);
status = 0;
}
else { /* an error occurred: restore L->Cstack and L->stack.top */
L->Cstack = oldCLS;
L->stack.top = L->stack.stack+L->Cstack.base;
status = 1;
}
L->errorJmp = oldErr;
return status;
}
/*
** returns 0 = chunk loaded; 1 = error; 2 = no more chunks to load
*/
static int protectedparser (ZIO *z, int bin) {
volatile struct C_Lua_Stack oldCLS = L->Cstack;
jmp_buf myErrorJmp;
volatile int status;
TProtoFunc *volatile tf;
jmp_buf *volatile oldErr = L->errorJmp;
L->errorJmp = &myErrorJmp;
if (setjmp(myErrorJmp) == 0) {
tf = bin ? luaU_undump1(z) : luaY_parser(z);
status = 0;
}
else { /* an error occurred: restore L->Cstack and L->stack.top */
L->Cstack = oldCLS;
L->stack.top = L->stack.stack+L->Cstack.base;
tf = NULL;
status = 1;
}
L->errorJmp = oldErr;
if (status) return 1; /* error code */
if (tf == NULL) return 2; /* 'natural' end */
luaD_adjusttop(L->Cstack.base+1); /* one slot for the pseudo-function */
L->stack.stack[L->Cstack.base].ttype = LUA_T_PROTO;
L->stack.stack[L->Cstack.base].value.tf = tf;
luaV_closure(0);
return 0;
}
static int do_main (ZIO *z, int bin) {
int status;
int debug = L->debug; /* save debug status */
do {
long old_blocks = (luaC_checkGC(), L->nblocks);
status = protectedparser(z, bin);
if (status == 1) return 1; /* error */
else if (status == 2) return 0; /* 'natural' end */
else {
unsigned long newelems2 = 2*(L->nblocks-old_blocks);
L->GCthreshold += newelems2;
status = luaD_protectedrun(MULT_RET);
L->GCthreshold -= newelems2;
}
} while (bin && status == 0);
L->debug = debug; /* restore debug status */
return status;
}
void luaD_gcIM (TObject *o)
{
TObject *im = luaT_getimbyObj(o, IM_GC);
if (ttype(im) != LUA_T_NIL) {
*L->stack.top = *o;
incr_top;
luaD_callTM(im, 1, 0);
}
}
#define MAXFILENAME 200 /* maximum part of a file name kept */
int lua_dofile (char *filename) {
ZIO z;
int status;
int c;
int bin;
char name[MAXFILENAME+2]; /* +2 for '@' and '\0' */
FILE *f = (filename == NULL) ? stdin : fopen(filename, "r");
if (f == NULL)
return 2;
if (filename == NULL)
strcpy(name, "@(stdin)");
else
sprintf(name, "@%.*s", MAXFILENAME, filename);
c = fgetc(f);
ungetc(c, f);
bin = (c == ID_CHUNK);
if (bin)
f = freopen(filename, "rb", f); /* set binary mode */
luaZ_Fopen(&z, f, name);
status = do_main(&z, bin);
if (f != stdin)
fclose(f);
return status;
}
int lua_dostring (char *str) {
return lua_dobuffer(str, strlen(str), str);
}
int lua_dobuffer (char *buff, int size, char *name) {
ZIO z;
if (!name) name = "?";
luaZ_mopen(&z, buff, size, name);
return do_main(&z, buff[0]==ID_CHUNK);
}