typedef char *pvcontents; typedef char *strconst; typedef U32 PV; typedef char *op_tr_array; typedef int comment_t; typedef SV *svindex; typedef OP *opindex; typedef char *pvindex; typedef IV IV64; #define BGET_FREAD(argp, len, nelem) \ bl_read(bstate->bs_fdata,(char*)(argp),(len),(nelem)) #define BGET_FGETC() bl_getc(bstate->bs_fdata) #define BGET_U32(arg) \ BGET_FREAD(&arg, sizeof(U32), 1) #define BGET_I32(arg) \ BGET_FREAD(&arg, sizeof(I32), 1) #define BGET_U16(arg) \ BGET_FREAD(&arg, sizeof(U16), 1) #define BGET_U8(arg) arg = BGET_FGETC() #define BGET_PV(arg) STMT_START { \ BGET_U32(arg); \ if (arg) { \ New(666, bstate->bs_pv.xpv_pv, arg, char); \ bl_read(bstate->bs_fdata, (void*)bstate->bs_pv.xpv_pv, arg, 1); \ bstate->bs_pv.xpv_len = arg; \ bstate->bs_pv.xpv_cur = arg - 1; \ } else { \ bstate->bs_pv.xpv_pv = 0; \ bstate->bs_pv.xpv_len = 0; \ bstate->bs_pv.xpv_cur = 0; \ } \ } STMT_END #ifdef BYTELOADER_LOG_COMMENTS # define BGET_comment_t(arg) \ STMT_START { \ char buf[1024]; \ int i = 0; \ do { \ arg = BGET_FGETC(); \ buf[i++] = (char)arg; \ } while (arg != '\n' && arg != EOF); \ buf[i] = '\0'; \ PerlIO_printf(PerlIO_stderr(), "%s", buf); \ } STMT_END #else # define BGET_comment_t(arg) \ do { arg = BGET_FGETC(); } while (arg != '\n' && arg != EOF) #endif /* * In the following, sizeof(IV)*4 is just a way of encoding 32 on 64-bit-IV * machines such that 32-bit machine compilers don't whine about the shift * count being too high even though the code is never reached there. */ #define BGET_IV64(arg) STMT_START { \ U32 hi, lo; \ BGET_U32(hi); \ BGET_U32(lo); \ if (sizeof(IV) == 8) \ arg = ((IV)hi << (sizeof(IV)*4) | (IV)lo); \ else if (((I32)hi == -1 && (I32)lo < 0) \ || ((I32)hi == 0 && (I32)lo >= 0)) { \ arg = (I32)lo; \ } \ else { \ bstate->bs_iv_overflows++; \ arg = 0; \ } \ } STMT_END #if IVSIZE == 4 # define BGET_IV(arg) BGET_I32(arg) #else # if IVSIZE == 8 # define BGET_IV(arg) BGET_IV64(arg) # endif #endif #define BGET_op_tr_array(arg) do { \ unsigned short *ary; \ New(666, ary, 256, unsigned short); \ BGET_FREAD(ary, sizeof(unsigned short), 256); \ arg = (char *) ary; \ } while (0) #define BGET_pvcontents(arg) arg = bstate->bs_pv.xpv_pv #define BGET_strconst(arg) STMT_START { \ for (arg = PL_tokenbuf; (*arg = BGET_FGETC()); arg++) /* nothing */; \ arg = PL_tokenbuf; \ } STMT_END #define BGET_NV(arg) STMT_START { \ char *str; \ BGET_strconst(str); \ arg = Atof(str); \ } STMT_END #define BGET_objindex(arg, type) STMT_START { \ BGET_U32(ix); \ arg = (type)bstate->bs_obj_list[ix]; \ } STMT_END #define BGET_svindex(arg) BGET_objindex(arg, svindex) #define BGET_opindex(arg) BGET_objindex(arg, opindex) #define BGET_pvindex(arg) STMT_START { \ BGET_objindex(arg, pvindex); \ arg = arg ? savepv(arg) : arg; \ } STMT_END #define BSET_ldspecsv(sv, arg) sv = specialsv_list[arg] #define BSET_stpv(pv, arg) STMT_START { \ BSET_OBJ_STORE(pv, arg); \ SAVEFREEPV(pv); \ } STMT_END #define BSET_sv_refcnt_add(svrefcnt, arg) svrefcnt += arg #define BSET_gp_refcnt_add(gprefcnt, arg) gprefcnt += arg #define BSET_gp_share(sv, arg) STMT_START { \ gp_free((GV*)sv); \ GvGP(sv) = GvGP(arg); \ } STMT_END #define BSET_gv_fetchpv(sv, arg) sv = (SV*)gv_fetchpv(arg, TRUE, SVt_PV) #define BSET_gv_stashpv(sv, arg) sv = (SV*)gv_stashpv(arg, TRUE) #define BSET_sv_magic(sv, arg) sv_magic(sv, Nullsv, arg, 0, 0) #define BSET_mg_pv(mg, arg) mg->mg_ptr = arg; mg->mg_len = bstate->bs_pv.xpv_cur #define BSET_sv_upgrade(sv, arg) (void)SvUPGRADE(sv, arg) #define BSET_xpv(sv) do { \ SvPV_set(sv, bstate->bs_pv.xpv_pv); \ SvCUR_set(sv, bstate->bs_pv.xpv_cur); \ SvLEN_set(sv, bstate->bs_pv.xpv_len); \ } while (0) #define BSET_av_extend(sv, arg) av_extend((AV*)sv, arg) #define BSET_av_push(sv, arg) av_push((AV*)sv, arg) #define BSET_hv_store(sv, arg) \ hv_store((HV*)sv, bstate->bs_pv.xpv_pv, bstate->bs_pv.xpv_cur, arg, 0) #define BSET_pv_free(pv) Safefree(pv.xpv_pv) #define BSET_pregcomp(o, arg) \ STMT_START { \ PM_SETRE(((PMOP*)o), (arg ? \ CALLREGCOMP(aTHX_ arg, arg + bstate->bs_pv.xpv_cur, ((PMOP*)o)) : 0)); \ } STMT_END #define BSET_newsv(sv, arg) \ STMT_START { \ sv = (arg == SVt_PVAV ? (SV*)newAV() : \ arg == SVt_PVHV ? (SV*)newHV() : \ NEWSV(666,0)); \ SvUPGRADE(sv, arg); \ } STMT_END #define BSET_newop(o, arg) ((o = (OP*)safemalloc(optype_size[arg])), \ memzero((char*)o,optype_size[arg])) #define BSET_newopn(o, arg) STMT_START { \ OP *oldop = o; \ BSET_newop(o, arg); \ oldop->op_next = o; \ } STMT_END #define BSET_ret(foo) STMT_START { \ Safefree(bstate->bs_obj_list); \ return; \ } STMT_END /* * Kludge special-case workaround for OP_MAPSTART * which needs the ppaddr for OP_GREPSTART. Blech. */ #define BSET_op_type(o, arg) STMT_START { \ o->op_type = arg; \ if (arg == OP_MAPSTART) \ arg = OP_GREPSTART; \ o->op_ppaddr = PL_ppaddr[arg]; \ } STMT_END #define BSET_op_ppaddr(o, arg) Perl_croak(aTHX_ "op_ppaddr not yet implemented") #define BSET_curpad(pad, arg) STMT_START { \ PL_comppad = (AV *)arg; \ pad = AvARRAY(arg); \ } STMT_END /* this works now that Sarathy's changed the CopFILE_set macro to do the SvREFCNT_inc() -- BKS 6-2-2000 */ #define BSET_cop_file(cop, arg) CopFILE_set(cop,arg) #define BSET_cop_line(cop, arg) CopLINE_set(cop,arg) #define BSET_cop_stashpv(cop, arg) CopSTASHPV_set(cop,arg) /* this is simply stolen from the code in newATTRSUB() */ #define BSET_push_begin(ary,cv) \ STMT_START { \ I32 oldscope = PL_scopestack_ix; \ ENTER; \ SAVECOPFILE(&PL_compiling); \ SAVECOPLINE(&PL_compiling); \ if (!PL_beginav) \ PL_beginav = newAV(); \ av_push(PL_beginav, cv); \ call_list(oldscope, PL_beginav); \ PL_curcop = &PL_compiling; \ PL_compiling.op_private = (U8)(PL_hints & HINT_PRIVATE_MASK);\ LEAVE; \ } STMT_END #define BSET_push_init(ary,cv) \ STMT_START { \ av_unshift((PL_initav ? PL_initav : (PL_initav = newAV(), PL_initav)), 1); \ av_store(PL_initav, 0, cv); \ } STMT_END #define BSET_push_end(ary,cv) \ STMT_START { \ av_unshift((PL_endav ? PL_endav : (PL_endav = newAV(), PL_endav)), 1); \ av_store(PL_endav, 0, cv); \ } STMT_END #define BSET_OBJ_STORE(obj, ix) \ (I32)ix > bstate->bs_obj_list_fill ? \ bset_obj_store(aTHX_ bstate, obj, (I32)ix) : (bstate->bs_obj_list[ix] = obj) /* NOTE: the bytecode header only sanity-checks the bytecode. If a script cares about * what version of Perl it's being called under, it should do a 'use 5.006_001' or * equivalent. However, since the header includes checks requiring an exact match in * ByteLoader versions (we can't guarantee forward compatibility), you don't * need to specify one: * use ByteLoader; * is all you need. * -- BKS, June 2000 */ #define HEADER_FAIL(f) \ Perl_croak(aTHX_ "Invalid bytecode for this architecture: " f) #define HEADER_FAIL1(f, arg1) \ Perl_croak(aTHX_ "Invalid bytecode for this architecture: " f, arg1) #define HEADER_FAIL2(f, arg1, arg2) \ Perl_croak(aTHX_ "Invalid bytecode for this architecture: " f, arg1, arg2) #define BYTECODE_HEADER_CHECK \ STMT_START { \ U32 sz = 0; \ strconst str; \ \ BGET_U32(sz); /* Magic: 'PLBC' */ \ if (sz != 0x43424c50) { \ HEADER_FAIL1("bad magic (want 0x43424c50, got %#x)", (int)sz); \ } \ BGET_strconst(str); /* archname */ \ if (strNE(str, ARCHNAME)) { \ HEADER_FAIL2("wrong architecture (want %s, you have %s)",str,ARCHNAME); \ } \ BGET_strconst(str); /* ByteLoader version */ \ if (strNE(str, VERSION)) { \ HEADER_FAIL2("mismatched ByteLoader versions (want %s, you have %s)", \ str, VERSION); \ } \ BGET_U32(sz); /* ivsize */ \ if (sz != IVSIZE) { \ HEADER_FAIL("different IVSIZE"); \ } \ BGET_U32(sz); /* ptrsize */ \ if (sz != PTRSIZE) { \ HEADER_FAIL("different PTRSIZE"); \ } \ BGET_strconst(str); /* byteorder */ \ if (strNE(str, STRINGIFY(BYTEORDER))) { \ HEADER_FAIL("different byteorder"); \ } \ } STMT_END