lua/lua.stx

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%{
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/*
** $Id: lua.stx,v 1.22 1997/12/09 16:01:08 roberto Exp roberto $
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** Syntax analizer and code generator
** See Copyright Notice in lua.h
*/
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#include <stdlib.h>
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#include <string.h>
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#include "lauxlib.h"
#include "ldo.h"
#include "lfunc.h"
#include "llex.h"
#include "lmem.h"
#include "lopcodes.h"
#include "lparser.h"
#include "lstate.h"
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#include "lstring.h"
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#include "lua.h"
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#include "luadebug.h"
#include "lzio.h"
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int luaY_parse (void);
#define MES_LIM(x) "(limit=" x ")"
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/* size of a "normal" jump instruction: OpCode + 1 byte */
#define JMPSIZE 2
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/* maximum number of local variables */
#define MAXLOCALS 32
#define SMAXLOCALS "32"
#define MINGLOBAL (MAXLOCALS+1)
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/* maximum number of variables in a multiple assignment */
#define MAXVAR 32
#define SMAXVAR "32"
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/* maximum number of nested functions */
#define MAXSTATES 6
#define SMAXSTATES "6"
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/* maximum number of upvalues */
#define MAXUPVALUES 16
#define SMAXUPVALUES "16"
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/*
** Variable descriptor:
** if 0<n<MINGLOBAL, represents local variable indexed by (n-1);
** if MINGLOBAL<=n, represents global variable at position (n-MINGLOBAL);
** if n<0, indexed variable with index (-n)-1 (table on top of stack);
** if n==0, an indexed variable (table and index on top of stack)
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** Must be long to store negative Word values.
*/
typedef long vardesc;
#define isglobal(v) (MINGLOBAL<=(v))
#define globalindex(v) ((v)-MINGLOBAL)
#define islocal(v) (0<(v) && (v)<MINGLOBAL)
#define localindex(v) ((v)-1)
#define isdot(v) (v<0)
#define dotindex(v) ((-(v))-1)
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/* state needed to generate code for a given function */
typedef struct FuncState {
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TProtoFunc *f; /* current function header */
int pc; /* next position to code */
TaggedString *localvar[MAXLOCALS]; /* store local variable names */
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int stacksize; /* number of values on activation register */
int maxstacksize; /* maximum number of values on activation register */
int nlocalvar; /* number of active local variables */
int nupvalues; /* number of upvalues */
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int nvars; /* number of entries in f->locvars */
int maxcode; /* size of f->code */
int maxvars; /* size of f->locvars (-1 if no debug information) */
int maxconsts; /* size of f->consts */
vardesc varbuffer[MAXVAR]; /* variables in an assignment list */
vardesc upvalues[MAXUPVALUES]; /* upvalues */
} FuncState;
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#define YYPURE 1
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void luaY_syntaxerror (char *s, char *token)
{
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if (token[0] == 0)
token = "<eof>";
luaL_verror("%.100s;\n> last token read: \"%.50s\" at line %d in file %.50s",
s, token, L->lexstate->linenumber, L->mainState->f->fileName->str);
}
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void luaY_error (char *s)
{
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luaY_syntaxerror(s, luaX_lasttoken());
}
static void check_pc (int n)
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{
if (L->currState->pc+n > L->currState->maxcode)
L->currState->maxcode = luaM_growvector(&L->currState->f->code,
L->currState->maxcode, Byte, codeEM, MAX_INT);
}
static void movecode_up (int d, int s, int n)
{
while (n--)
L->currState->f->code[d+n] = L->currState->f->code[s+n];
}
static void movecode_down (int d, int s, int n)
{
int i;
for (i=0; i<n; i++)
L->currState->f->code[d+i] = L->currState->f->code[s+i];
}
static void code_byte (Byte c)
{
check_pc(1);
L->currState->f->code[L->currState->pc++] = c;
}
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static void deltastack (int delta)
{
L->currState->stacksize += delta;
if (L->currState->stacksize > L->currState->maxstacksize) {
if (L->currState->stacksize > 255)
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luaY_error("function/expression too complex");
L->currState->maxstacksize = L->currState->stacksize;
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}
}
static int code_oparg_at (int pc, OpCode op, int builtin, int arg, int delta)
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{
deltastack(delta);
if (arg < builtin) {
L->currState->f->code[pc] = op+1+arg;
return 1;
}
else if (arg <= 255) {
L->currState->f->code[pc] = op;
L->currState->f->code[pc+1] = arg;
return 2;
}
else if (arg <= MAX_WORD) {
L->currState->f->code[pc] = op+1+builtin;
L->currState->f->code[pc+1] = arg&0xFF;
L->currState->f->code[pc+2] = arg>>8;
return 3;
}
else luaY_error("code too long " MES_LIM("64K"));
return 0; /* to avoid warnings */
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}
static int fix_opcode (int pc, OpCode op, int builtin, int arg)
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{
if (arg < builtin) { /* close space */
movecode_down(pc+1, pc+2, L->currState->pc-(pc+2));
L->currState->pc--;
}
else if (arg > 255) { /* open space */
check_pc(1);
movecode_up(pc+1, pc, L->currState->pc-pc);
L->currState->pc++;
}
return code_oparg_at(pc, op, builtin, arg, 0) - 2;
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}
static void code_oparg (OpCode op, int builtin, int arg, int delta)
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{
check_pc(3); /* maximum code size */
L->currState->pc += code_oparg_at(L->currState->pc, op, builtin, arg, delta);
}
static void code_opcode (OpCode op, int delta)
{
deltastack(delta);
code_byte(op);
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}
static void code_pop (OpCode op)
{
code_opcode(op, -1);
}
/* binary operations get 2 arguments and leave one, so they pop one */
#define code_binop(op) code_pop(op)
static void code_neutralop (OpCode op)
{
code_opcode(op, 0);
}
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/* unary operations get 1 argument and leave one, so they are neutral */
#define code_unop(op) code_neutralop(op)
static void code_constant (int c)
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{
code_oparg(PUSHCONSTANT, 8, c, 1);
}
static int next_constant (FuncState *cs)
{
TProtoFunc *f = cs->f;
if (f->nconsts >= cs->maxconsts) {
cs->maxconsts = luaM_growvector(&f->consts, cs->maxconsts, TObject,
constantEM, MAX_WORD);
}
return f->nconsts++;
}
static int string_constant (TaggedString *s, FuncState *cs)
{
TProtoFunc *f = cs->f;
int c = s->constindex;
if (!(c < f->nconsts &&
ttype(&f->consts[c]) == LUA_T_STRING && tsvalue(&f->consts[c]) == s)) {
c = next_constant(cs);
ttype(&f->consts[c]) = LUA_T_STRING;
tsvalue(&f->consts[c]) = s;
s->constindex = c; /* hint for next time */
}
return c;
}
static void code_string (TaggedString *s)
{
code_constant(string_constant(s, L->currState));
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}
#define LIM 20
static int real_constant (real r)
{
/* check whether 'r' has appeared within the last LIM entries */
TObject *cnt = L->currState->f->consts;
int c = L->currState->f->nconsts;
int lim = c < LIM ? 0 : c-LIM;
while (--c >= lim) {
if (ttype(&cnt[c]) == LUA_T_NUMBER && nvalue(&cnt[c]) == r)
return c;
}
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/* not found; create a luaM_new entry */
c = next_constant(L->currState);
cnt = L->currState->f->consts; /* 'next_constant' may reallocate this vector */
ttype(&cnt[c]) = LUA_T_NUMBER;
nvalue(&cnt[c]) = r;
return c;
}
static void code_number (real f)
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{
Word i;
if (f >= 0 && f <= (real)MAX_WORD && (real)(i=(Word)f) == f)
code_oparg(PUSHNUMBER, 3, i, 1); /* f has an (short) integer value */
else
code_constant(real_constant(f));
}
static void flush_record (int n)
{
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if (n > 0)
code_oparg(SETMAP, 1, n-1, -2*n);
}
static void flush_list (int m, int n)
{
if (n == 0) return;
code_oparg(SETLIST, 1, m, -n);
code_byte(n);
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}
static void luaI_registerlocalvar (TaggedString *varname, int line)
{
if (L->currState->maxvars != -1) { /* debug information? */
if (L->currState->nvars >= L->currState->maxvars)
L->currState->maxvars = luaM_growvector(&L->currState->f->locvars,
L->currState->maxvars, LocVar, "", MAX_WORD);
L->currState->f->locvars[L->currState->nvars].varname = varname;
L->currState->f->locvars[L->currState->nvars].line = line;
L->currState->nvars++;
}
}
static void luaI_unregisterlocalvar (int line)
{
luaI_registerlocalvar(NULL, line);
}
static void store_localvar (TaggedString *name, int n)
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{
if (L->currState->nlocalvar+n < MAXLOCALS)
L->currState->localvar[L->currState->nlocalvar+n] = name;
else
luaY_error("too many local variables " MES_LIM(SMAXLOCALS));
luaI_registerlocalvar(name, L->lexstate->linenumber);
}
static void add_localvar (TaggedString *name)
{
store_localvar(name, 0);
L->currState->nlocalvar++;
}
/*
** dotted variables <a.x> must be stored like regular indexed vars <a["x"]>
*/
static vardesc var2store (vardesc var)
{
if (isdot(var)) {
code_constant(dotindex(var));
var = 0;
}
return var;
}
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static void add_varbuffer (vardesc var, int n)
{
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if (n >= MAXVAR)
luaY_error("variable buffer overflow " MES_LIM(SMAXVAR));
L->currState->varbuffer[n] = var2store(var);
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}
static int aux_localname (TaggedString *n, FuncState *st)
{
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int i;
for (i=st->nlocalvar-1; i >= 0; i--)
if (n == st->localvar[i]) return i; /* local var index */
return -1; /* not found */
}
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static vardesc singlevar (TaggedString *n, FuncState *st)
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{
int i = aux_localname(n, st);
if (i == -1) { /* check shadowing */
int l;
for (l=1; l<=(st-L->mainState); l++)
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if (aux_localname(n, st-l) >= 0)
luaY_syntaxerror("cannot access a variable in outer scope", n->str);
return string_constant(n, st)+MINGLOBAL; /* global value */
}
else return i+1; /* local value */
}
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static int indexupvalue (TaggedString *n)
{
vardesc v = singlevar(n, L->currState-1);
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int i;
for (i=0; i<L->currState->nupvalues; i++) {
if (L->currState->upvalues[i] == v)
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return i;
}
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/* new one */
if (++(L->currState->nupvalues) > MAXUPVALUES)
luaY_error("too many upvalues in a single function " MES_LIM(SMAXUPVALUES));
L->currState->upvalues[i] = v; /* i = L->currState->nupvalues - 1 */
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return i;
}
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static void pushupvalue (TaggedString *n)
{
int i;
if (L->currState == L->mainState)
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luaY_error("cannot access upvalue in main");
if (aux_localname(n, L->currState) >= 0)
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luaY_syntaxerror("cannot access an upvalue in current scope", n->str);
i = indexupvalue(n);
code_oparg(PUSHUPVALUE, 2, i, 1);
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}
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void luaY_codedebugline (int line)
{
if (lua_debug && line != L->lexstate->lastline) {
code_oparg(SETLINE, 0, line, 0);
L->lexstate->lastline = line;
}
}
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static void adjuststack (int n)
{
if (n > 0)
code_oparg(POP, 2, n-1, -n);
else if (n < 0)
code_oparg(PUSHNIL, 1, (-n)-1, -n);
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}
static long adjust_functioncall (long exp, int nresults)
{
if (exp <= 0)
return -exp; /* exp is -list length */
else {
int temp = L->currState->f->code[exp];
int nparams = L->currState->f->code[exp-1];
exp += fix_opcode(exp-2, CALLFUNC, 2, nresults);
L->currState->f->code[exp] = nparams;
if (nresults != MULT_RET)
deltastack(nresults);
deltastack(-(nparams+1));
return temp+nresults;
}
}
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static void adjust_mult_assign (int vars, long exps)
{
if (exps > 0) { /* must correct function call */
int diff = L->currState->f->code[exps] - vars;
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if (diff < 0)
adjust_functioncall(exps, -diff);
else {
adjust_functioncall(exps, 0);
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adjuststack(diff);
}
}
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else adjuststack((-exps)-vars);
}
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static void code_args (int nparams, int dots)
{
L->currState->nlocalvar += nparams;
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if (!dots)
code_oparg(ARGS, 0, L->currState->nlocalvar, L->currState->nlocalvar);
else {
code_oparg(VARARGS, 0, L->currState->nlocalvar, L->currState->nlocalvar+1);
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add_localvar(luaS_new("arg"));
}
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}
static void lua_pushvar (vardesc var)
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{
if (isglobal(var))
code_oparg(GETGLOBAL, 8, globalindex(var), 1);
else if (islocal(var))
code_oparg(PUSHLOCAL, 8, localindex(var), 1);
else if (isdot(var))
code_oparg(GETDOTTED, 8, dotindex(var), 0);
else
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code_pop(GETTABLE);
}
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static void storevar (vardesc var)
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{
if (var == 0) /* indexed var */
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code_opcode(SETTABLE0, -3);
else if (isglobal(var))
code_oparg(SETGLOBAL, 8, globalindex(var), -1);
else /* local var */
code_oparg(SETLOCAL, 8, localindex(var), -1);
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}
/* returns how many elements are left as 'garbage' on the stack */
static int lua_codestore (int i, int left)
{
if (L->currState->varbuffer[i] != 0 || /* global or local var or */
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left+i == 0) { /* indexed var without values in between */
storevar(L->currState->varbuffer[i]);
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return left;
}
else { /* indexed var with values in between*/
code_oparg(SETTABLE, 0, left+i, -1);
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return left+2; /* table/index are not popped, since they are not on top */
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}
}
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static int fix_jump (int pc, OpCode op, int n)
{
/* jump is relative to position following jump instruction */
return fix_opcode(pc, op, 0, n-(pc+JMPSIZE));
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}
static void fix_upjmp (OpCode op, int pos)
{
int delta = L->currState->pc+JMPSIZE - pos; /* jump is relative */
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if (delta > 255) delta++;
code_oparg(op, 0, delta, 0);
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}
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static void codeIf (int thenAdd, int elseAdd)
{
int elseinit = elseAdd+JMPSIZE;
if (L->currState->pc == elseinit) { /* no else part */
L->currState->pc -= JMPSIZE;
elseinit = L->currState->pc;
}
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else
elseinit += fix_jump(elseAdd, JMP, L->currState->pc);
fix_jump(thenAdd, IFFJMP, elseinit);
}
static void code_shortcircuit (int pc, OpCode op)
{
fix_jump(pc, op, L->currState->pc);
}
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static void codereturn (void)
{
code_oparg(RETCODE, 0, L->currState->nlocalvar, 0);
L->currState->stacksize = L->currState->nlocalvar;
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}
static void func_onstack (TProtoFunc *f)
{
int i;
int nupvalues = (L->currState+1)->nupvalues;
int c = next_constant(L->currState);
ttype(&L->currState->f->consts[c]) = LUA_T_PROTO;
L->currState->f->consts[c].value.tf = (L->currState+1)->f;
if (nupvalues == 0)
code_constant(c);
else {
for (i=0; i<nupvalues; i++)
lua_pushvar((L->currState+1)->upvalues[i]);
code_constant(c);
code_oparg(CLOSURE, 2, nupvalues, -nupvalues);
}
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}
static void init_state (TaggedString *filename)
{
TProtoFunc *f = luaF_newproto();
L->currState->stacksize = 0;
L->currState->maxstacksize = 0;
L->currState->nlocalvar = 0;
L->currState->nupvalues = 0;
L->currState->f = f;
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f->fileName = filename;
L->currState->pc = 0;
L->currState->maxcode = 0;
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f->code = NULL;
L->currState->maxconsts = 0;
if (lua_debug) {
L->currState->nvars = 0;
L->currState->maxvars = 0;
}
else
L->currState->maxvars = -1; /* flag no debug information */
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code_byte(0); /* to be filled with stacksize */
L->lexstate->lastline = 0; /* invalidate it */
}
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static void init_func (void)
{
if (L->currState-L->mainState >= MAXSTATES-1)
luaY_error("too many nested functions " MES_LIM(SMAXSTATES));
L->currState++;
init_state(L->mainState->f->fileName);
luaY_codedebugline(L->lexstate->linenumber);
L->currState->f->lineDefined = L->lexstate->linenumber;
}
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static TProtoFunc *close_func (void)
{
TProtoFunc *f = L->currState->f;
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code_neutralop(ENDCODE);
f->code[0] = L->currState->maxstacksize;
f->code = luaM_reallocvector(f->code, L->currState->pc, Byte);
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f->consts = luaM_reallocvector(f->consts, f->nconsts, TObject);
if (L->currState->maxvars != -1) { /* debug information? */
luaI_registerlocalvar(NULL, -1); /* flag end of vector */
f->locvars = luaM_reallocvector(f->locvars, L->currState->nvars, LocVar);
}
L->currState--;
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return f;
}
/*
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** Parse Lua code.
*/
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TProtoFunc *luaY_parser (ZIO *z, char *chunkname)
{
struct LexState lexstate;
FuncState state[MAXSTATES];
L->currState = L->mainState = &state[0];
L->lexstate = &lexstate;
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luaX_setinput(z);
init_state(luaS_new(chunkname));
if (luaY_parse()) lua_error("parse error");
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return close_func();
}
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%}
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%union
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{
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int vInt;
real vReal;
char *pChar;
long vLong;
TaggedString *pTStr;
TProtoFunc *pFunc;
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}
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%start chunk
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%token WRONGTOKEN
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%token NIL
%token IF THEN ELSE ELSEIF WHILE DO REPEAT UNTIL END
%token RETURN
%token LOCAL
%token FUNCTION
%token DOTS
%token <vReal> NUMBER
%token <pTStr> NAME STRING
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%type <vInt> SaveWord, cond, GetPC, SaveWordPop, SaveWordPush
%type <vLong> exprlist, exprlist1 /* if > 0, points to function return
counter (which has list length); if <= 0, -list lenght */
%type <vLong> functioncall, expr /* if != 0, points to function return
counter */
%type <vInt> varlist1, funcParams, funcvalue
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%type <vInt> fieldlist, localnamelist, decinit
%type <vInt> ffieldlist, ffieldlist1, semicolonpart
%type <vInt> lfieldlist, lfieldlist1
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%type <vLong> var, funcname /* vardesc */
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%type <pFunc> body
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%left AND OR
%left EQ NE '>' '<' LE GE
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%left CONC
%left '+' '-'
%left '*' '/'
%left UNARY NOT
%right '^'
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%% /* beginning of rules section */
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chunk : statlist ret
;
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statlist : /* empty */
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| statlist stat sc
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;
sc : /* empty */ | ';' ;
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stat : IF cond THEN block SaveWord elsepart END { codeIf($2, $5); }
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| DO block END
| WHILE GetPC cond DO block END
{{
int expsize = $3-$2;
int newpos = $2+JMPSIZE;
check_pc(expsize);
memcpy(&L->currState->f->code[L->currState->pc],
&L->currState->f->code[$2], expsize);
movecode_down($2, $3, L->currState->pc-$2);
newpos += fix_jump($2, JMP, L->currState->pc-expsize);
fix_upjmp(IFTUPJMP, newpos);
}}
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| REPEAT GetPC block UNTIL expr1
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{
fix_upjmp(IFFUPJMP, $2);
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deltastack(-1); /* pops condition */
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}
| varlist1 '=' exprlist1
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{{
int i;
int left = 0;
adjust_mult_assign($1, $3);
for (i=$1-1; i>=0; i--)
left = lua_codestore(i, left);
adjuststack(left); /* remove eventual 'garbage' left on stack */
}}
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| functioncall { adjust_functioncall($1, 0); }
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| LOCAL localnamelist decinit
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{
L->currState->nlocalvar += $2;
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adjust_mult_assign($2, $3);
}
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| FUNCTION funcname body { func_onstack($3); storevar($2); }
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;
block : {$<vInt>$ = L->currState->nlocalvar;} chunk
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{
adjuststack(L->currState->nlocalvar - $<vInt>1);
for (; L->currState->nlocalvar > $<vInt>1; L->currState->nlocalvar--)
luaI_unregisterlocalvar(L->lexstate->linenumber);
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}
;
funcname : var { $$ = var2store($1); init_func(); }
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| varexp ':' NAME
{
code_string($3);
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$$ = 0; /* flag indexed variable */
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init_func();
add_localvar(luaS_new("self"));
}
;
body : '(' parlist ')' chunk END { $$ = close_func(); }
;
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elsepart : /* empty */
| ELSE block
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| ELSEIF cond THEN block SaveWord elsepart { codeIf($2, $5); }
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;
ret : /* empty */
| RETURN exprlist sc
{
adjust_functioncall($2, MULT_RET);
codereturn();
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}
;
GetPC : /* empty */ { $$ = L->currState->pc; }
;
SaveWord : /* empty */
{ $$ = L->currState->pc;
check_pc(JMPSIZE);
L->currState->pc += JMPSIZE; /* open space */
}
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;
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SaveWordPop : SaveWord { $$ = $1; deltastack(-1); /* pop condition */ }
;
SaveWordPush : SaveWord { $$ = $1; deltastack(1); /* push a value */ }
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;
cond : expr1 SaveWordPop { $$ = $2; }
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;
expr1 : expr { adjust_functioncall($1, 1); }
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;
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expr : '(' expr ')' { $$ = $2; }
| expr1 EQ expr1 { code_binop(EQOP); $$ = 0; }
| expr1 '<' expr1 { code_binop(LTOP); $$ = 0; }
| expr1 '>' expr1 { code_binop(GTOP); $$ = 0; }
| expr1 NE expr1 { code_binop(NEQOP); $$ = 0; }
| expr1 LE expr1 { code_binop(LEOP); $$ = 0; }
| expr1 GE expr1 { code_binop(GEOP); $$ = 0; }
| expr1 '+' expr1 { code_binop(ADDOP); $$ = 0; }
| expr1 '-' expr1 { code_binop(SUBOP); $$ = 0; }
| expr1 '*' expr1 { code_binop(MULTOP); $$ = 0; }
| expr1 '/' expr1 { code_binop(DIVOP); $$ = 0; }
| expr1 '^' expr1 { code_binop(POWOP); $$ = 0; }
| expr1 CONC expr1 { code_binop(CONCOP); $$ = 0; }
| '-' expr1 %prec UNARY { code_unop(MINUSOP); $$ = 0;}
| NOT expr1 { code_unop(NOTOP); $$ = 0;}
| table { $$ = 0; }
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| varexp { $$ = 0;}
| NUMBER { code_number($1); $$ = 0; }
| STRING { code_string($1); $$ = 0; }
| NIL { adjuststack(-1); $$ = 0; }
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| functioncall { $$ = $1; }
| FUNCTION { init_func(); } body { func_onstack($3); $$ = 0; }
| expr1 AND SaveWordPop expr1 { code_shortcircuit($3, ONFJMP); $$ = 0; }
| expr1 OR SaveWordPop expr1 { code_shortcircuit($3, ONTJMP); $$ = 0; }
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;
table : '{' SaveWordPush fieldlist '}' { fix_opcode($2, CREATEARRAY, 2, $3); }
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;
functioncall : funcvalue funcParams
{
code_byte(0); /* save space for opcode */
code_byte($1+$2); /* number of parameters */
$$ = L->currState->pc;
code_byte(0); /* must be adjusted by other rules */
}
;
funcvalue : varexp { $$ = 0; }
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| varexp ':' NAME
{
code_oparg(PUSHSELF, 0, string_constant($3, L->currState), 1);
$$ = 1;
}
;
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funcParams : '(' exprlist ')' { $$ = adjust_functioncall($2, 1); }
| table { $$ = 1; }
;
exprlist : /* empty */ { $$ = 0; }
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| exprlist1 { $$ = $1; }
;
exprlist1 : expr { if ($1 != 0) $$ = $1; else $$ = -1; }
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| exprlist1 ',' { $<vLong>$ = adjust_functioncall($1, 1); } expr
{
if ($4 == 0) $$ = -($<vLong>3 + 1); /* -length */
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else {
L->currState->f->code[$4] = $<vLong>3; /* store list length */
$$ = $4;
}
}
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;
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parlist : /* empty */ { code_args(0, 0); }
| DOTS { code_args(0, 1); }
| localnamelist { code_args($1, 0); }
| localnamelist ',' DOTS { code_args($1, 1); }
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;
fieldlist : lfieldlist
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{ flush_list($1/LFIELDS_PER_FLUSH, $1%LFIELDS_PER_FLUSH); }
semicolonpart
{ $$ = $1+$3; }
| ffieldlist1 lastcomma
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{ $$ = $1; flush_record($1%RFIELDS_PER_FLUSH); }
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;
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semicolonpart : /* empty */ { $$ = 0; }
| ';' ffieldlist { $$ = $2; flush_record($2%RFIELDS_PER_FLUSH); }
;
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lastcomma : /* empty */
| ','
;
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ffieldlist : /* empty */ { $$ = 0; }
| ffieldlist1 lastcomma { $$ = $1; }
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;
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ffieldlist1 : ffield {$$=1;}
| ffieldlist1 ',' ffield
{
$$=$1+1;
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if ($$%RFIELDS_PER_FLUSH == 0)
flush_record(RFIELDS_PER_FLUSH);
}
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;
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ffield : ffieldkey '=' expr1
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;
ffieldkey : '[' expr1 ']'
| NAME { code_string($1); }
;
lfieldlist : /* empty */ { $$ = 0; }
| lfieldlist1 lastcomma { $$ = $1; }
;
lfieldlist1 : expr1 {$$=1;}
| lfieldlist1 ',' expr1
{
$$=$1+1;
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if ($$%LFIELDS_PER_FLUSH == 0)
flush_list($$/LFIELDS_PER_FLUSH - 1, LFIELDS_PER_FLUSH);
}
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;
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varlist1 : var { $$ = 1; add_varbuffer($1, 0); }
| varlist1 ',' var { add_varbuffer($3, $1); $$ = $1+1; }
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;
var : NAME { $$ = singlevar($1, L->currState); }
| varexp '[' expr1 ']' { $$ = 0; } /* indexed variable */
| varexp '.' NAME { $$ = (-string_constant($3, L->currState))-1; }
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;
varexp : var { lua_pushvar($1); }
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| '%' NAME { pushupvalue($2); }
;
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localnamelist : NAME {store_localvar($1, 0); $$ = 1;}
| localnamelist ',' NAME { store_localvar($3, $1); $$ = $1+1; }
;
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decinit : /* empty */ { $$ = 0; }
| '=' exprlist1 { $$ = $2; }
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;
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%%