mirror of
https://github.com/lua/lua
synced 2024-11-23 13:19:57 +03:00
809 lines
20 KiB
C
809 lines
20 KiB
C
/*
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** $Id: lcode.c,v 1.79 2001/08/27 15:16:28 roberto Exp roberto $
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** Code generator for Lua
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** See Copyright Notice in lua.h
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*/
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#include <stdlib.h>
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#define LUA_PRIVATE
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#include "lua.h"
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#include "lcode.h"
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#include "ldebug.h"
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#include "ldo.h"
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#include "llex.h"
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#include "lmem.h"
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#include "lobject.h"
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#include "lopcodes.h"
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#include "lparser.h"
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#include "ltable.h"
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#define hasjumps(e) ((e)->t != (e)->f)
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#define getcode(fs,e) ((fs)->f->code[(e)->u.i.info])
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void luaK_error (LexState *ls, const l_char *msg) {
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luaX_error(ls, msg, ls->t.token);
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}
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/*
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** Returns the the previous instruction, for optimizations.
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** If there is a jump target between this and the current instruction,
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** returns a dummy instruction to avoid wrong optimizations.
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*/
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static Instruction previous_instruction (FuncState *fs) {
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if (fs->pc > fs->lasttarget) /* no jumps to current position? */
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return fs->f->code[fs->pc-1]; /* returns previous instruction */
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else
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return cast(Instruction, -1);/* invalid instruction avoids optimizations */
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}
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void luaK_nil (FuncState *fs, int from, int n) {
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Instruction previous = previous_instruction(fs);
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if (GET_OPCODE(previous) == OP_LOADNIL) {
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int pfrom = GETARG_A(previous);
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int pto = GETARG_B(previous);
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if (pfrom <= from && from <= pto+1) { /* can connect both? */
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if (from+n-1 > pto)
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SETARG_B(fs->f->code[fs->pc-1], from+n-1);
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return;
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}
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}
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luaK_codeABC(fs, OP_LOADNIL, from, from+n-1, 0); /* else no optimization */
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}
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int luaK_jump (FuncState *fs) {
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int j = luaK_codeAsBc(fs, OP_JMP, 0, NO_JUMP);
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if (j == fs->lasttarget) { /* possible jumps to this jump? */
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luaK_concat(fs, &j, fs->jlt); /* keep them on hold */
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fs->jlt = NO_JUMP;
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}
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return j;
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}
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static int luaK_condjump (FuncState *fs, OpCode op, int A, int B, int C) {
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luaK_codeABC(fs, op, A, B, C);
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return luaK_codeAsBc(fs, OP_CJMP, 0, NO_JUMP);
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}
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static void luaK_fixjump (FuncState *fs, int pc, int dest) {
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Instruction *jmp = &fs->f->code[pc];
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if (dest == NO_JUMP)
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SETARG_sBc(*jmp, NO_JUMP); /* point to itself to represent end of list */
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else { /* jump is relative to position following jump instruction */
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int offset = dest-(pc+1);
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if (abs(offset) > MAXARG_sBc)
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luaK_error(fs->ls, l_s("control structure too long"));
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SETARG_sBc(*jmp, offset);
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}
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}
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/*
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** prep-for instructions (OP_FORPREP & OP_TFORPREP) have a negated jump,
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** as they simulate the real jump...
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*/
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void luaK_fixfor (FuncState *fs, int pc, int dest) {
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Instruction *jmp = &fs->f->code[pc];
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int offset = dest-(pc+1);
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SETARG_sBc(*jmp, -offset);
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}
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/*
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** returns current `pc' and marks it as a jump target (to avoid wrong
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** optimizations with consecutive instructions not in the same basic block).
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** discharge list of jumps to last target.
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*/
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int luaK_getlabel (FuncState *fs) {
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if (fs->pc != fs->lasttarget) {
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int lasttarget = fs->lasttarget;
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fs->lasttarget = fs->pc;
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luaK_patchlist(fs, fs->jlt, lasttarget); /* discharge old list `jlt' */
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fs->jlt = NO_JUMP; /* nobody jumps to this new label (yet) */
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}
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return fs->pc;
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}
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static int luaK_getjump (FuncState *fs, int pc) {
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int offset = GETARG_sBc(fs->f->code[pc]);
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if (offset == NO_JUMP) /* point to itself represents end of list */
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return NO_JUMP; /* end of list */
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else
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return (pc+1)+offset; /* turn offset into absolute position */
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}
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static Instruction *getjumpcontrol (FuncState *fs, int pc) {
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Instruction *pi = &fs->f->code[pc];
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OpCode op = GET_OPCODE(*pi);
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if (op == OP_CJMP)
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return pi-1;
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else {
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lua_assert(op == OP_JMP || op == OP_FORLOOP || op == OP_TFORLOOP);
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return pi;
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}
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}
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static int need_value (FuncState *fs, int list, OpCode op) {
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/* check whether list has any jump different from `op' */
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for (; list != NO_JUMP; list = luaK_getjump(fs, list))
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if (GET_OPCODE(*getjumpcontrol(fs, list)) != op) return 1;
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return 0; /* not found */
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}
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static void patchtestreg (Instruction *i, int reg) {
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if (reg == NO_REG) reg = GETARG_B(*i);
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SETARG_A(*i, reg);
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}
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static void luaK_patchlistaux (FuncState *fs, int list,
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int ttarget, int treg, int ftarget, int freg, int dtarget) {
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while (list != NO_JUMP) {
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int next = luaK_getjump(fs, list);
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Instruction *i = getjumpcontrol(fs, list);
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switch (GET_OPCODE(*i)) {
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case OP_TESTT: {
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patchtestreg(i, treg);
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luaK_fixjump(fs, list, ttarget);
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break;
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}
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case OP_TESTF: {
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patchtestreg(i, freg);
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luaK_fixjump(fs, list, ftarget);
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break;
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}
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default: {
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luaK_fixjump(fs, list, dtarget); /* jump to default target */
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break;
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}
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}
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list = next;
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}
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}
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void luaK_patchlist (FuncState *fs, int list, int target) {
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if (target == fs->lasttarget) /* same target that list `jlt'? */
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luaK_concat(fs, &fs->jlt, list); /* delay fixing */
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else
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luaK_patchlistaux(fs, list, target, NO_REG, target, NO_REG, target);
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}
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void luaK_concat (FuncState *fs, int *l1, int l2) {
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if (*l1 == NO_JUMP)
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*l1 = l2;
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else {
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int list = *l1;
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int next;
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while ((next = luaK_getjump(fs, list)) != NO_JUMP) /* find last element */
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list = next;
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luaK_fixjump(fs, list, l2);
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}
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}
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void luaK_reserveregs (FuncState *fs, int n) {
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fs->freereg += n;
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if (fs->freereg > fs->f->maxstacksize) {
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if (fs->freereg >= MAXSTACK)
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luaK_error(fs->ls, l_s("function or expression too complex"));
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fs->f->maxstacksize = cast(short, fs->freereg);
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}
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}
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static void freereg (FuncState *fs, int reg) {
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if (reg >= fs->nactloc && reg < MAXSTACK) {
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fs->freereg--;
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lua_assert(reg == fs->freereg);
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}
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}
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static void freeexp (FuncState *fs, expdesc *e) {
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if (e->k == VNONRELOC)
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freereg(fs, e->u.i.info);
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}
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static int addk (FuncState *fs, TObject *k) {
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const TObject *index = luaH_get(fs->h, k);
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if (ttype(index) == LUA_TNUMBER) {
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lua_assert(luaO_equalObj(&fs->f->k[cast(int, nvalue(index))], k));
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return cast(int, nvalue(index));
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}
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else { /* constant not found; create a new entry */
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TObject o;
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Proto *f = fs->f;
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luaM_growvector(fs->L, f->k, fs->nk, f->sizek, TObject,
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MAXARG_Bc, l_s("constant table overflow"));
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setobj(&f->k[fs->nk], k);
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setnvalue(&o, fs->nk);
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luaH_set(fs->L, fs->h, k, &o);
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return fs->nk++;
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}
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}
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int luaK_stringk (FuncState *fs, TString *s) {
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TObject o;
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setsvalue(&o, s);
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return addk(fs, &o);
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}
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static int number_constant (FuncState *fs, lua_Number r) {
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TObject o;
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setnvalue(&o, r);
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return addk(fs, &o);
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}
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void luaK_setcallreturns (FuncState *fs, expdesc *e, int nresults) {
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if (e->k == VCALL) { /* expression is an open function call? */
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if (nresults == LUA_MULTRET) nresults = NO_REG;
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SETARG_C(getcode(fs, e), nresults);
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if (nresults == 1) { /* `regular' expression? */
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e->k = VNONRELOC;
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e->u.i.info = GETARG_A(getcode(fs, e));
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}
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}
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}
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void luaK_dischargevars (FuncState *fs, expdesc *e) {
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switch (e->k) {
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case VLOCAL: {
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e->k = VNONRELOC;
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break;
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}
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case VUPVAL: {
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e->u.i.info = luaK_codeABC(fs, OP_GETUPVAL, 0, e->u.i.info, 0);
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e->k = VRELOCABLE;
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break;
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}
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case VGLOBAL: {
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e->u.i.info = luaK_codeABc(fs, OP_GETGLOBAL, 0, e->u.i.info);
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e->k = VRELOCABLE;
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break;
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}
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case VINDEXED: {
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freereg(fs, e->u.i.aux);
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freereg(fs, e->u.i.info);
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e->u.i.info = luaK_codeABC(fs, OP_GETTABLE, 0, e->u.i.info, e->u.i.aux);
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e->k = VRELOCABLE;
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break;
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}
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case VCALL: {
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luaK_setcallreturns(fs, e, 1);
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break;
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}
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default: break; /* there is one value available (somewhere) */
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}
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}
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static int code_label (FuncState *fs, OpCode op, int A, int sBc) {
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luaK_getlabel(fs); /* those instructions may be jump targets */
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return luaK_codeAsBc(fs, op, A, sBc);
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}
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static void dischargejumps (FuncState *fs, expdesc *e, int reg) {
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if (hasjumps(e)) {
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int final; /* position after whole expression */
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int p_nil = NO_JUMP; /* position of an eventual PUSHNIL */
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int p_1 = NO_JUMP; /* position of an eventual PUSHINT */
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if (need_value(fs, e->f, OP_TESTF) || need_value(fs, e->t, OP_TESTT)) {
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/* expression needs values */
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if (e->k != VJMP)
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code_label(fs, OP_JMP, 0, 2); /* to jump over both pushes */
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p_nil = code_label(fs, OP_NILJMP, reg, 0);
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p_1 = code_label(fs, OP_LOADINT, reg, 1);
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}
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final = luaK_getlabel(fs);
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luaK_patchlistaux(fs, e->f, p_nil, NO_REG, final, reg, p_nil);
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luaK_patchlistaux(fs, e->t, final, reg, p_1, NO_REG, p_1);
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}
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e->f = e->t = NO_JUMP;
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}
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static void discharge2reg (FuncState *fs, expdesc *e, int reg) {
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luaK_dischargevars(fs, e);
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switch (e->k) {
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case VNIL: {
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luaK_nil(fs, reg, 1);
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break;
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}
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case VNUMBER: {
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lua_Number f = e->u.n;
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int i = cast(int, f);
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if ((lua_Number)i == f && -MAXARG_sBc <= i && i <= MAXARG_sBc)
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luaK_codeAsBc(fs, OP_LOADINT, reg, i); /* f has a small int value */
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else
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luaK_codeABc(fs, OP_LOADK, reg, number_constant(fs, f));
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break;
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}
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case VK: {
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luaK_codeABc(fs, OP_LOADK, reg, e->u.i.info);
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break;
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}
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case VRELOCABLE: {
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Instruction *pc = &getcode(fs, e);
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SETARG_A(*pc, reg);
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break;
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}
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default: return;
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}
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e->u.i.info = reg;
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e->k = VNONRELOC;
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}
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static void discharge2anyreg (FuncState *fs, expdesc *e) {
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if (e->k != VNONRELOC) {
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luaK_reserveregs(fs, 1);
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discharge2reg(fs, e, fs->freereg-1);
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}
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}
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static void luaK_exp2reg (FuncState *fs, expdesc *e, int reg) {
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discharge2reg(fs, e, reg);
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switch (e->k) {
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case VVOID: {
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return; /* nothing to do... */
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}
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case VNONRELOC: {
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if (reg != e->u.i.info)
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luaK_codeABC(fs, OP_MOVE, reg, e->u.i.info, 0);
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break;
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}
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case VJMP: {
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luaK_concat(fs, &e->t, e->u.i.info); /* put this jump in `t' list */
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break;
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}
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default: {
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lua_assert(0); /* cannot happen */
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break;
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}
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}
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dischargejumps(fs, e, reg);
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e->u.i.info = reg;
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e->k = VNONRELOC;
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}
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void luaK_exp2nextreg (FuncState *fs, expdesc *e) {
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int reg;
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luaK_dischargevars(fs, e);
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freeexp(fs, e);
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reg = fs->freereg;
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luaK_reserveregs(fs, 1);
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luaK_exp2reg(fs, e, reg);
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}
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int luaK_exp2anyreg (FuncState *fs, expdesc *e) {
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luaK_dischargevars(fs, e);
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if (e->k == VNONRELOC) {
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if (!hasjumps(e)) return e->u.i.info; /* exp is already in a register */
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if (e->u.i.info >= fs->nactloc) { /* reg. is not a local? */
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dischargejumps(fs, e, e->u.i.info); /* put value on it */
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return e->u.i.info;
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}
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}
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luaK_exp2nextreg(fs, e); /* default */
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return e->u.i.info;
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}
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void luaK_exp2val (FuncState *fs, expdesc *e) {
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if (hasjumps(e))
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luaK_exp2anyreg(fs, e);
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else
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luaK_dischargevars(fs, e);
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}
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int luaK_exp2RK (FuncState *fs, expdesc *e) {
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luaK_exp2val(fs, e);
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if (e->k == VNUMBER && fs->nk + MAXSTACK <= MAXARG_C) {
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e->u.i.info = number_constant(fs, e->u.n);
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e->k = VK;
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}
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else if (!(e->k == VK && e->u.i.info + MAXSTACK <= MAXARG_C))
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luaK_exp2anyreg(fs, e); /* not a constant in the right range */
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return (e->k == VK) ? e->u.i.info+MAXSTACK : e->u.i.info;
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}
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void luaK_storevar (FuncState *fs, expdesc *var, expdesc *exp) {
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switch (var->k) {
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case VLOCAL: {
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freeexp(fs, exp);
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luaK_exp2reg(fs, exp, var->u.i.info);
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break;
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}
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case VUPVAL: {
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int e = luaK_exp2anyreg(fs, exp);
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freereg(fs, e);
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luaK_codeABC(fs, OP_SETUPVAL, e, var->u.i.info, 0);
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break;
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}
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case VGLOBAL: {
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int e = luaK_exp2anyreg(fs, exp);
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freereg(fs, e);
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luaK_codeABc(fs, OP_SETGLOBAL, e, var->u.i.info);
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break;
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}
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case VINDEXED: {
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int e = luaK_exp2anyreg(fs, exp);
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freereg(fs, e);
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luaK_codeABC(fs, OP_SETTABLE, e, var->u.i.info, var->u.i.aux);
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break;
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}
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default: {
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lua_assert(0); /* invalid var kind to store */
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break;
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}
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}
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}
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void luaK_self (FuncState *fs, expdesc *e, expdesc *key) {
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int func;
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luaK_exp2anyreg(fs, e);
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freeexp(fs, e);
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func = fs->freereg;
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luaK_reserveregs(fs, 2);
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luaK_codeABC(fs, OP_SELF, func, e->u.i.info, luaK_exp2RK(fs, key));
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freeexp(fs, key);
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e->u.i.info = func;
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e->k = VNONRELOC;
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}
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static OpCode invertoperator (OpCode op) {
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switch (op) {
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case OP_TESTNE: return OP_TESTEQ;
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case OP_TESTEQ: return OP_TESTNE;
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case OP_TESTLT: return OP_TESTGE;
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case OP_TESTLE: return OP_TESTGT;
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case OP_TESTGT: return OP_TESTLE;
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case OP_TESTGE: return OP_TESTLT;
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case OP_TESTT: return OP_TESTF;
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case OP_TESTF: return OP_TESTT;
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default: lua_assert(0); return op; /* invalid jump instruction */
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}
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}
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static void invertjump (FuncState *fs, expdesc *e) {
|
|
Instruction *pc = getjumpcontrol(fs, e->u.i.info);
|
|
*pc = SET_OPCODE(*pc, invertoperator(GET_OPCODE(*pc)));
|
|
}
|
|
|
|
|
|
static int jumponcond (FuncState *fs, expdesc *e, OpCode op) {
|
|
if (e->k == VRELOCABLE) {
|
|
Instruction ie = getcode(fs, e);
|
|
if (GET_OPCODE(ie) == OP_NOT) {
|
|
op = invertoperator(op);
|
|
fs->pc--; /* remove previous OP_NOT */
|
|
return luaK_condjump(fs, op, NO_REG, GETARG_B(ie), 0);
|
|
}
|
|
/* else go through */
|
|
}
|
|
discharge2anyreg(fs, e);
|
|
freeexp(fs, e);
|
|
return luaK_condjump(fs, op, NO_REG, e->u.i.info, 0);
|
|
}
|
|
|
|
|
|
void luaK_goiftrue (FuncState *fs, expdesc *e) {
|
|
int pc; /* pc of last jump */
|
|
luaK_dischargevars(fs, e);
|
|
switch (e->k) {
|
|
case VK: case VNUMBER: {
|
|
pc = NO_JUMP; /* always true; do nothing */
|
|
break;
|
|
}
|
|
case VNIL: {
|
|
pc = luaK_codeAsBc(fs, OP_JMP, 0, NO_JUMP); /* always jump */
|
|
break;
|
|
}
|
|
case VJMP: {
|
|
invertjump(fs, e);
|
|
pc = e->u.i.info;
|
|
break;
|
|
}
|
|
case VRELOCABLE:
|
|
case VNONRELOC: {
|
|
pc = jumponcond(fs, e, OP_TESTF);
|
|
break;
|
|
}
|
|
default: {
|
|
pc = 0; /* to avoid warnings */
|
|
lua_assert(0); /* cannot happen */
|
|
break;
|
|
}
|
|
}
|
|
luaK_concat(fs, &e->f, pc); /* insert last jump in `f' list */
|
|
luaK_patchlist(fs, e->t, luaK_getlabel(fs));
|
|
e->t = NO_JUMP;
|
|
}
|
|
|
|
|
|
static void luaK_goiffalse (FuncState *fs, expdesc *e) {
|
|
int pc; /* pc of last jump */
|
|
luaK_dischargevars(fs, e);
|
|
switch (e->k) {
|
|
case VNIL: {
|
|
pc = NO_JUMP; /* always false; do nothing */
|
|
break;
|
|
}
|
|
case VJMP: {
|
|
pc = e->u.i.info;
|
|
break;
|
|
}
|
|
case VK: case VNUMBER: /* cannot optimize it (`or' must keep value) */
|
|
case VRELOCABLE:
|
|
case VNONRELOC: {
|
|
pc = jumponcond(fs, e, OP_TESTT);
|
|
break;
|
|
}
|
|
default: {
|
|
pc = 0; /* to avoid warnings */
|
|
lua_assert(0); /* cannot happen */
|
|
break;
|
|
}
|
|
}
|
|
luaK_concat(fs, &e->t, pc); /* insert last jump in `t' list */
|
|
luaK_patchlist(fs, e->f, luaK_getlabel(fs));
|
|
e->f = NO_JUMP;
|
|
}
|
|
|
|
|
|
static void codenot (FuncState *fs, expdesc *e) {
|
|
luaK_dischargevars(fs, e);
|
|
switch (e->k) {
|
|
case VNIL: {
|
|
e->u.n = 1;
|
|
e->k = VNUMBER;
|
|
break;
|
|
}
|
|
case VK: case VNUMBER: {
|
|
e->k = VNIL;
|
|
break;
|
|
}
|
|
case VJMP: {
|
|
invertjump(fs, e);
|
|
break;
|
|
}
|
|
case VRELOCABLE:
|
|
case VNONRELOC: {
|
|
discharge2anyreg(fs, e);
|
|
freeexp(fs, e);
|
|
e->u.i.info = luaK_codeABC(fs, OP_NOT, 0, e->u.i.info, 0);
|
|
e->k = VRELOCABLE;
|
|
break;
|
|
}
|
|
default: {
|
|
lua_assert(0); /* cannot happen */
|
|
break;
|
|
}
|
|
}
|
|
/* interchange true and false lists */
|
|
{ int temp = e->f; e->f = e->t; e->t = temp; }
|
|
}
|
|
|
|
|
|
void luaK_indexed (FuncState *fs, expdesc *t, expdesc *k) {
|
|
t->u.i.aux = luaK_exp2RK(fs, k);
|
|
t->k = VINDEXED;
|
|
}
|
|
|
|
|
|
void luaK_prefix (FuncState *fs, UnOpr op, expdesc *e) {
|
|
if (op == OPR_MINUS) {
|
|
luaK_exp2val(fs, e);
|
|
if (e->k == VNUMBER)
|
|
e->u.n = -e->u.n;
|
|
else {
|
|
luaK_exp2anyreg(fs, e);
|
|
freeexp(fs, e);
|
|
e->u.i.info = luaK_codeABC(fs, OP_UNM, 0, e->u.i.info, 0);
|
|
e->k = VRELOCABLE;
|
|
}
|
|
}
|
|
else /* op == NOT */
|
|
codenot(fs, e);
|
|
}
|
|
|
|
|
|
void luaK_infix (FuncState *fs, BinOpr op, expdesc *v) {
|
|
switch (op) {
|
|
case OPR_AND: {
|
|
luaK_goiftrue(fs, v);
|
|
break;
|
|
}
|
|
case OPR_OR: {
|
|
luaK_goiffalse(fs, v);
|
|
break;
|
|
}
|
|
case OPR_CONCAT: {
|
|
luaK_exp2nextreg(fs, v); /* operand must be on the `stack' */
|
|
break;
|
|
}
|
|
case OPR_SUB: case OPR_DIV: case OPR_POW: {
|
|
/* non-comutative operators */
|
|
luaK_exp2anyreg(fs, v); /* first operand must be a register */
|
|
break;
|
|
}
|
|
default: {
|
|
luaK_exp2RK(fs, v);
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
/* opcode for each binary operator */
|
|
static const OpCode codes[] = { /* ORDER OPR */
|
|
OP_ADD, OP_SUB, OP_MUL, OP_DIV,
|
|
OP_POW, OP_CONCAT,
|
|
OP_TESTNE, OP_TESTEQ,
|
|
OP_TESTLT, OP_TESTLE, OP_TESTGT, OP_TESTGE
|
|
};
|
|
|
|
|
|
/* `inverted' opcode for each binary operator */
|
|
/* ( -1 means operator has no inverse) */
|
|
static const OpCode invcodes[] = { /* ORDER OPR */
|
|
OP_ADD, (OpCode)-1, OP_MUL, (OpCode)-1,
|
|
(OpCode)-1, (OpCode)-1,
|
|
OP_TESTNE, OP_TESTEQ,
|
|
OP_TESTGT, OP_TESTGE, OP_TESTLT, OP_TESTLE
|
|
};
|
|
|
|
|
|
void luaK_posfix (FuncState *fs, BinOpr op, expdesc *e1, expdesc *e2) {
|
|
switch (op) {
|
|
case OPR_AND: {
|
|
lua_assert(e1->t == NO_JUMP); /* list must be closed */
|
|
luaK_dischargevars(fs, e2);
|
|
luaK_concat(fs, &e1->f, e2->f);
|
|
e1->k = e2->k; e1->u = e2->u; e1->t = e2->t;
|
|
break;
|
|
}
|
|
case OPR_OR: {
|
|
lua_assert(e1->f == NO_JUMP); /* list must be closed */
|
|
luaK_dischargevars(fs, e2);
|
|
luaK_concat(fs, &e1->t, e2->t);
|
|
e1->k = e2->k; e1->u = e2->u; e1->f = e2->f;
|
|
break;
|
|
}
|
|
case OPR_CONCAT: {
|
|
luaK_exp2val(fs, e2);
|
|
if (e2->k == VRELOCABLE && GET_OPCODE(getcode(fs, e2)) == OP_CONCAT) {
|
|
lua_assert(e1->u.i.info == GETARG_B(getcode(fs, e2))-1);
|
|
freeexp(fs, e1);
|
|
SETARG_B(getcode(fs, e2), e1->u.i.info);
|
|
e1->k = e2->k; e1->u.i.info = e2->u.i.info;
|
|
}
|
|
else {
|
|
luaK_exp2nextreg(fs, e2);
|
|
freeexp(fs, e2);
|
|
freeexp(fs, e1);
|
|
e1->u.i.info = luaK_codeABC(fs, codes[op], 0, e1->u.i.info,
|
|
e2->u.i.info);
|
|
e1->k = VRELOCABLE;
|
|
}
|
|
break;
|
|
}
|
|
case OPR_EQ: case OPR_NE: {
|
|
luaK_exp2val(fs, e2);
|
|
if (e2->k == VNIL) { /* exp x= nil ? */
|
|
if (e1->k == VK) { /* constant x= nil ? */
|
|
if (op == OPR_EQ) /* constant == nil ? */
|
|
e1->k = VNIL; /* always false */
|
|
/* else always true (leave the constant itself) */
|
|
}
|
|
else {
|
|
OpCode opc = (op == OPR_EQ) ? OP_TESTF : OP_TESTT;
|
|
e1->u.i.info = jumponcond(fs, e1, opc);
|
|
e1->k = VJMP;
|
|
}
|
|
break;
|
|
}
|
|
/* else go through */
|
|
}
|
|
default: {
|
|
int o1, o2;
|
|
OpCode opc;
|
|
if (e1->k != VK) { /* not a constant operator? */
|
|
o1 = e1->u.i.info;
|
|
o2 = luaK_exp2RK(fs, e2); /* maybe other operator is constant... */
|
|
opc = codes[op];
|
|
}
|
|
else { /* invert operands */
|
|
o2 = luaK_exp2RK(fs, e1); /* constant must be 2nd operand */
|
|
o1 = luaK_exp2anyreg(fs, e2); /* other operator must be in register */
|
|
opc = invcodes[op]; /* use inverted operator */
|
|
}
|
|
freeexp(fs, e2);
|
|
freeexp(fs, e1);
|
|
if (op < OPR_NE) { /* ORDER OPR */
|
|
e1->u.i.info = luaK_codeABC(fs, opc, 0, o1, o2);
|
|
e1->k = VRELOCABLE;
|
|
}
|
|
else { /* jump */
|
|
e1->u.i.info = luaK_condjump(fs, opc, o1, 0, o2);
|
|
e1->k = VJMP;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
static void codelineinfo (FuncState *fs) {
|
|
Proto *f = fs->f;
|
|
LexState *ls = fs->ls;
|
|
if (ls->lastline > fs->lastline) {
|
|
if (ls->lastline > fs->lastline+1) {
|
|
luaM_growvector(fs->L, f->lineinfo, fs->nlineinfo, f->sizelineinfo, int,
|
|
MAX_INT, l_s("line info overflow"));
|
|
f->lineinfo[fs->nlineinfo++] = -(ls->lastline - (fs->lastline+1));
|
|
}
|
|
luaM_growvector(fs->L, f->lineinfo, fs->nlineinfo, f->sizelineinfo, int,
|
|
MAX_INT, l_s("line info overflow"));
|
|
f->lineinfo[fs->nlineinfo++] = fs->pc;
|
|
fs->lastline = ls->lastline;
|
|
}
|
|
}
|
|
|
|
|
|
static int luaK_code (FuncState *fs, Instruction i) {
|
|
Proto *f;
|
|
codelineinfo(fs);
|
|
f = fs->f;
|
|
/* put new instruction in code array */
|
|
luaM_growvector(fs->L, f->code, fs->pc, f->sizecode, Instruction,
|
|
MAX_INT, l_s("code size overflow"));
|
|
f->code[fs->pc] = i;
|
|
/*printf("free: %d ", fs->freereg); printopcode(f, fs->pc);*/
|
|
return fs->pc++;
|
|
}
|
|
|
|
|
|
int luaK_codeABC (FuncState *fs, OpCode o, int a, int b, int c) {
|
|
lua_assert(getOpMode(o) == iABC);
|
|
return luaK_code(fs, CREATE_ABC(o, a, b, c));
|
|
}
|
|
|
|
|
|
int luaK_codeABc (FuncState *fs, OpCode o, int a, unsigned int bc) {
|
|
lua_assert(getOpMode(o) == iABc || getOpMode(o) == iAsBc);
|
|
return luaK_code(fs, CREATE_ABc(o, a, bc));
|
|
}
|
|
|