Пример #1
0
void Module::genobjfile(int multiobj)
{
    //EEcontext *ee = env->getEEcontext();

    //printf("Module::genobjfile(multiobj = %d) %s\n", multiobj, toChars());

    lastmname = srcfile->toChars();

    obj_initfile(lastmname, NULL, toPrettyChars());

    eictor = NULL;
    ictorlocalgot = NULL;
    sctors.setDim(0);
    ectorgates.setDim(0);
    sdtors.setDim(0);
    ssharedctors.setDim(0);
    esharedctorgates.setDim(0);
    sshareddtors.setDim(0);
    stests.setDim(0);
    dtorcount = 0;
    shareddtorcount = 0;

    if (doppelganger)
    {
        /* Generate a reference to the moduleinfo, so the module constructors
         * and destructors get linked in.
         */
        Module *m = aimports[0];
        assert(m);
        if (m->sictor || m->sctor || m->sdtor || m->ssharedctor || m->sshareddtor)
        {
            Symbol *s = m->toSymbol();
            //objextern(s);
            //if (!s->Sxtrnnum) objextdef(s->Sident);
            if (!s->Sxtrnnum)
            {
                //printf("%s\n", s->Sident);
#if 0 /* This should work, but causes optlink to fail in common/newlib.asm */
                objextdef(s->Sident);
#else
#if ELFOBJ || MACHOBJ
                int nbytes = reftoident(DATA, Offset(DATA), s, 0, I64 ? (CFoff | CFoffset64) : CFoff);
#else
                int nbytes = reftoident(DATA, Doffset, s, 0, CFoff);
                Doffset += nbytes;
#endif
#endif
            }
        }
    }

    if (global.params.cov)
    {
        /* Create coverage identifier:
         *  private uint[numlines] __coverage;
         */
        cov = symbol_calloc("__coverage");
        cov->Stype = type_fake(TYint);
        cov->Stype->Tmangle = mTYman_c;
        cov->Stype->Tcount++;
        cov->Sclass = SCstatic;
        cov->Sfl = FLdata;
#if ELFOBJ || MACHOBJ
        cov->Sseg = UDATA;
#endif
        dtnzeros(&cov->Sdt, 4 * numlines);
        outdata(cov);
        slist_add(cov);

        covb = (unsigned *)calloc((numlines + 32) / 32, sizeof(*covb));
    }

    for (size_t i = 0; i < members->dim; i++)
    {
        Dsymbol *member = (*members)[i];
        member->toObjFile(multiobj);
    }

    if (global.params.cov)
    {
        /* Generate
         *      bit[numlines] __bcoverage;
         */
        Symbol *bcov = symbol_calloc("__bcoverage");
        bcov->Stype = type_fake(TYuint);
        bcov->Stype->Tcount++;
        bcov->Sclass = SCstatic;
        bcov->Sfl = FLdata;
#if ELFOBJ || MACHOBJ
        bcov->Sseg = DATA;
#endif
        dtnbytes(&bcov->Sdt, (numlines + 32) / 32 * sizeof(*covb), (char *)covb);
        outdata(bcov);

        free(covb);
        covb = NULL;

        /* Generate:
         *  _d_cover_register(uint[] __coverage, BitArray __bcoverage, string filename);
         * and prepend it to the static constructor.
         */

        /* t will be the type of the functions generated:
         *      extern (C) void func();
         */
        type *t = type_alloc(TYnfunc);
        t->Tflags |= TFprototype | TFfixed;
        t->Tmangle = mTYman_c;
        t->Tnext = tsvoid;
        tsvoid->Tcount++;

        sictor = toSymbolX("__modictor", SCglobal, t, "FZv");
        cstate.CSpsymtab = &sictor->Sfunc->Flocsym;
        localgot = ictorlocalgot;
        elem *e;

        e = el_params(el_pair(TYdarray, el_long(TYsize_t, numlines), el_ptr(cov)),
                      el_pair(TYdarray, el_long(TYsize_t, numlines), el_ptr(bcov)),
                      toEfilename(),
                      NULL);
        e = el_bin(OPcall, TYvoid, el_var(rtlsym[RTLSYM_DCOVER]), e);
        eictor = el_combine(e, eictor);
        ictorlocalgot = localgot;
    }

    // If coverage / static constructor / destructor / unittest calls
    if (eictor || sctors.dim || ectorgates.dim || sdtors.dim ||
        ssharedctors.dim || esharedctorgates.dim || sshareddtors.dim || stests.dim)
    {
        if (eictor)
        {
            localgot = ictorlocalgot;

            block *b = block_calloc();
            b->BC = BCret;
            b->Belem = eictor;
            sictor->Sfunc->Fstartline.Sfilename = arg;
            sictor->Sfunc->Fstartblock = b;
            writefunc(sictor);
        }

        sctor = callFuncsAndGates(this, &sctors, &ectorgates, "__modctor");
        sdtor = callFuncsAndGates(this, &sdtors, NULL, "__moddtor");

#if DMDV2
        ssharedctor = callFuncsAndGates(this, &ssharedctors, (StaticDtorDeclarations *)&esharedctorgates, "__modsharedctor");
        sshareddtor = callFuncsAndGates(this, &sshareddtors, NULL, "__modshareddtor");
#endif
        stest = callFuncsAndGates(this, &stests, NULL, "__modtest");

        if (doppelganger)
            genmoduleinfo();
    }

    if (doppelganger)
    {
        obj_termfile();
        return;
    }

    if (global.params.multiobj)
    {   /* This is necessary because the main .obj for this module is written
         * first, but determining whether marray or massert or munittest are needed is done
         * possibly later in the doppelganger modules.
         * Another way to fix it is do the main one last.
         */
        toModuleAssert();
        toModuleUnittest();
        toModuleArray();
    }

#if 1
    // Always generate module info, because of templates and -cov
    if (1 || needModuleInfo())
        genmoduleinfo();
#endif

    // If module assert
    for (int i = 0; i < 3; i++)
    {
        Symbol *ma;
        unsigned rt;
        unsigned bc;
        switch (i)
        {
            case 0:     ma = marray;    rt = RTLSYM_DARRAY;     bc = BCexit; break;
            case 1:     ma = massert;   rt = RTLSYM_DASSERTM;   bc = BCexit; break;
            case 2:     ma = munittest; rt = RTLSYM_DUNITTESTM; bc = BCret;  break;
            default:    assert(0);
        }

        if (ma)
        {
            elem *elinnum;

            localgot = NULL;

            // Call dassert(filename, line)
            // Get sole parameter, linnum
            {
                Symbol *sp = symbol_calloc("linnum");
                sp->Stype = type_fake(TYint);
                sp->Stype->Tcount++;
                sp->Sclass = SCfastpar;
                size_t num;
                sp->Spreg = getintegerparamsreglist(TYjfunc, &num)[0];
                sp->Sflags &= ~SFLspill;
                sp->Sfl = FLpara;       // FLauto?
                cstate.CSpsymtab = &ma->Sfunc->Flocsym;
                symbol_add(sp);

                elinnum = el_var(sp);
            }

            elem *efilename = el_ptr(toSymbol());

            elem *e = el_var(rtlsym[rt]);
            e = el_bin(OPcall, TYvoid, e, el_param(elinnum, efilename));

            block *b = block_calloc();
            b->BC = bc;
            b->Belem = e;
            ma->Sfunc->Fstartline.Sfilename = arg;
            ma->Sfunc->Fstartblock = b;
            ma->Sclass = SCglobal;
            ma->Sfl = 0;
            ma->Sflags |= rtlsym[rt]->Sflags & SFLexit;
            writefunc(ma);
        }
    }

    obj_termfile();
}
Пример #2
0
void genObjFile(Module *m, bool multiobj)
{
    //EEcontext *ee = env->getEEcontext();

    //printf("Module::genobjfile(multiobj = %d) %s\n", multiobj, m->toChars());

    if (m->ident == Id::entrypoint)
    {
        bool v = global.params.verbose;
        global.params.verbose = false;

        for (size_t i = 0; i < m->members->dim; i++)
        {
            Dsymbol *member = (*m->members)[i];
            //printf("toObjFile %s %s\n", member->kind(), member->toChars());
            toObjFile(member, global.params.multiobj);
        }

        global.params.verbose = v;
        return;
    }

    lastmname = m->srcfile->toChars();

    objmod->initfile(lastmname, NULL, m->toPrettyChars());

    eictor = NULL;
    ictorlocalgot = NULL;
    sctors.setDim(0);
    ectorgates.setDim(0);
    sdtors.setDim(0);
    ssharedctors.setDim(0);
    esharedctorgates.setDim(0);
    sshareddtors.setDim(0);
    stests.setDim(0);

    if (m->doppelganger)
    {
        /* Generate a reference to the moduleinfo, so the module constructors
         * and destructors get linked in.
         */
        Module *mod = m->aimports[0];
        assert(mod);
        if (mod->sictor || mod->sctor || mod->sdtor || mod->ssharedctor || mod->sshareddtor)
        {
            Symbol *s = toSymbol(mod);
            //objextern(s);
            //if (!s->Sxtrnnum) objextdef(s->Sident);
            if (!s->Sxtrnnum)
            {
                //printf("%s\n", s->Sident);
#if 0 /* This should work, but causes optlink to fail in common/newlib.asm */
                objextdef(s->Sident);
#else
                Symbol *sref = symbol_generate(SCstatic, type_fake(TYnptr));
                sref->Sfl = FLdata;
                dtxoff(&sref->Sdt, s, 0, TYnptr);
                outdata(sref);
#endif
            }
        }
    }

    if (global.params.cov)
    {
        /* Create coverage identifier:
         *  private uint[numlines] __coverage;
         */
        m->cov = symbol_calloc("__coverage");
        m->cov->Stype = type_fake(TYint);
        m->cov->Stype->Tmangle = mTYman_c;
        m->cov->Stype->Tcount++;
        m->cov->Sclass = SCstatic;
        m->cov->Sfl = FLdata;
        dtnzeros(&m->cov->Sdt, 4 * m->numlines);
        outdata(m->cov);
        slist_add(m->cov);

        m->covb = (unsigned *)calloc((m->numlines + 32) / 32, sizeof(*m->covb));
    }

    for (size_t i = 0; i < m->members->dim; i++)
    {
        Dsymbol *member = (*m->members)[i];
        //printf("toObjFile %s %s\n", member->kind(), member->toChars());
        toObjFile(member, multiobj);
    }

    if (global.params.cov)
    {
        /* Generate
         *      bit[numlines] __bcoverage;
         */
        Symbol *bcov = symbol_calloc("__bcoverage");
        bcov->Stype = type_fake(TYuint);
        bcov->Stype->Tcount++;
        bcov->Sclass = SCstatic;
        bcov->Sfl = FLdata;
        dtnbytes(&bcov->Sdt, (m->numlines + 32) / 32 * sizeof(*m->covb), (char *)m->covb);
        outdata(bcov);

        free(m->covb);
        m->covb = NULL;

        /* Generate:
         *  _d_cover_register(uint[] __coverage, BitArray __bcoverage, string filename);
         * and prepend it to the static constructor.
         */

        /* t will be the type of the functions generated:
         *      extern (C) void func();
         */
        type *t = type_function(TYnfunc, NULL, 0, false, tsvoid);
        t->Tmangle = mTYman_c;

        m->sictor = toSymbolX(m, "__modictor", SCglobal, t, "FZv");
        cstate.CSpsymtab = &m->sictor->Sfunc->Flocsym;
        localgot = ictorlocalgot;

        elem *ecov  = el_pair(TYdarray, el_long(TYsize_t, m->numlines), el_ptr(m->cov));
        elem *ebcov = el_pair(TYdarray, el_long(TYsize_t, m->numlines), el_ptr(bcov));

        if (config.exe == EX_WIN64)
        {
            ecov  = addressElem(ecov,  Type::tvoid->arrayOf(), false);
            ebcov = addressElem(ebcov, Type::tvoid->arrayOf(), false);
        }

        elem *efilename = toEfilename(m);
        if (config.exe == EX_WIN64)
            efilename = addressElem(efilename, Type::tstring, true);

        elem *e = el_params(
                      el_long(TYuchar, global.params.covPercent),
                      ecov,
                      ebcov,
                      efilename,
                      NULL);
        e = el_bin(OPcall, TYvoid, el_var(rtlsym[RTLSYM_DCOVER2]), e);
        eictor = el_combine(e, eictor);
        ictorlocalgot = localgot;
    }

    // If coverage / static constructor / destructor / unittest calls
    if (eictor || sctors.dim || ectorgates.dim || sdtors.dim ||
        ssharedctors.dim || esharedctorgates.dim || sshareddtors.dim || stests.dim)
    {
        if (eictor)
        {
            localgot = ictorlocalgot;

            block *b = block_calloc();
            b->BC = BCret;
            b->Belem = eictor;
            m->sictor->Sfunc->Fstartline.Sfilename = m->arg;
            m->sictor->Sfunc->Fstartblock = b;
            writefunc(m->sictor);
        }

        m->sctor = callFuncsAndGates(m, &sctors, &ectorgates, "__modctor");
        m->sdtor = callFuncsAndGates(m, &sdtors, NULL, "__moddtor");

        m->ssharedctor = callFuncsAndGates(m, &ssharedctors, (StaticDtorDeclarations *)&esharedctorgates, "__modsharedctor");
        m->sshareddtor = callFuncsAndGates(m, &sshareddtors, NULL, "__modshareddtor");
        m->stest = callFuncsAndGates(m, &stests, NULL, "__modtest");

        if (m->doppelganger)
            genModuleInfo(m);
    }

    if (m->doppelganger)
    {
        objmod->termfile();
        return;
    }

    if (global.params.multiobj)
    {
        /* This is necessary because the main .obj for this module is written
         * first, but determining whether marray or massert or munittest are needed is done
         * possibly later in the doppelganger modules.
         * Another way to fix it is do the main one last.
         */
        toModuleAssert(m);
        toModuleUnittest(m);
        toModuleArray(m);
    }

    /* Always generate module info, because of templates and -cov.
     * But module info needs the runtime library, so disable it for betterC.
     */
    if (!global.params.betterC /*|| needModuleInfo()*/)
        genModuleInfo(m);

    genhelpers(m, false);

    objmod->termfile();
}
Пример #3
0
Файл: glue.c Проект: alexrp/dmd
void Module::genobjfile(int multiobj)
{
    //EEcontext *ee = env->getEEcontext();

    //printf("Module::genobjfile(multiobj = %d) %s\n", multiobj, toChars());

    lastmname = srcfile->toChars();

    objmod->initfile(lastmname, NULL, toPrettyChars());

    eictor = NULL;
    ictorlocalgot = NULL;
    sctors.setDim(0);
    ectorgates.setDim(0);
    sdtors.setDim(0);
    ssharedctors.setDim(0);
    esharedctorgates.setDim(0);
    sshareddtors.setDim(0);
    stests.setDim(0);
    dtorcount = 0;
    shareddtorcount = 0;

    if (doppelganger)
    {
        /* Generate a reference to the moduleinfo, so the module constructors
         * and destructors get linked in.
         */
        Module *m = aimports[0];
        assert(m);
        if (m->sictor || m->sctor || m->sdtor || m->ssharedctor || m->sshareddtor)
        {
            Symbol *s = m->toSymbol();
            //objextern(s);
            //if (!s->Sxtrnnum) objextdef(s->Sident);
            if (!s->Sxtrnnum)
            {
                //printf("%s\n", s->Sident);
#if 0 /* This should work, but causes optlink to fail in common/newlib.asm */
                objextdef(s->Sident);
#else
                Symbol *sref = symbol_generate(SCstatic, type_fake(TYnptr));
                sref->Sfl = FLdata;
                dtxoff(&sref->Sdt, s, 0, TYnptr);
                outdata(sref);
#endif
            }
        }
    }

    if (global.params.cov)
    {
        /* Create coverage identifier:
         *  private uint[numlines] __coverage;
         */
        cov = symbol_calloc("__coverage");
        cov->Stype = type_fake(TYint);
        cov->Stype->Tmangle = mTYman_c;
        cov->Stype->Tcount++;
        cov->Sclass = SCstatic;
        cov->Sfl = FLdata;
        dtnzeros(&cov->Sdt, 4 * numlines);
        outdata(cov);
        slist_add(cov);

        covb = (unsigned *)calloc((numlines + 32) / 32, sizeof(*covb));
    }

    for (size_t i = 0; i < members->dim; i++)
    {
        Dsymbol *member = (*members)[i];
        //printf("toObjFile %s %s\n", member->kind(), member->toChars());
        member->toObjFile(multiobj);
    }

    if (global.params.cov)
    {
        /* Generate
         *      bit[numlines] __bcoverage;
         */
        Symbol *bcov = symbol_calloc("__bcoverage");
        bcov->Stype = type_fake(TYuint);
        bcov->Stype->Tcount++;
        bcov->Sclass = SCstatic;
        bcov->Sfl = FLdata;
        dtnbytes(&bcov->Sdt, (numlines + 32) / 32 * sizeof(*covb), (char *)covb);
        outdata(bcov);

        free(covb);
        covb = NULL;

        /* Generate:
         *  _d_cover_register(uint[] __coverage, BitArray __bcoverage, string filename);
         * and prepend it to the static constructor.
         */

        /* t will be the type of the functions generated:
         *      extern (C) void func();
         */
        type *t = type_function(TYnfunc, NULL, 0, false, tsvoid);
        t->Tmangle = mTYman_c;

        sictor = toSymbolX("__modictor", SCglobal, t, "FZv");
        cstate.CSpsymtab = &sictor->Sfunc->Flocsym;
        localgot = ictorlocalgot;

        elem *ecov  = el_pair(TYdarray, el_long(TYsize_t, numlines), el_ptr(cov));
        elem *ebcov = el_pair(TYdarray, el_long(TYsize_t, numlines), el_ptr(bcov));

        if (config.exe == EX_WIN64)
        {
            ecov  = addressElem(ecov,  Type::tvoid->arrayOf(), false);
            ebcov = addressElem(ebcov, Type::tvoid->arrayOf(), false);
        }

        elem *e = el_params(
                      el_long(TYuchar, global.params.covPercent),
                      ecov,
                      ebcov,
                      toEfilename(),
                      NULL);
        e = el_bin(OPcall, TYvoid, el_var(rtlsym[RTLSYM_DCOVER2]), e);
        eictor = el_combine(e, eictor);
        ictorlocalgot = localgot;
    }

    // If coverage / static constructor / destructor / unittest calls
    if (eictor || sctors.dim || ectorgates.dim || sdtors.dim ||
        ssharedctors.dim || esharedctorgates.dim || sshareddtors.dim || stests.dim)
    {
        if (eictor)
        {
            localgot = ictorlocalgot;

            block *b = block_calloc();
            b->BC = BCret;
            b->Belem = eictor;
            sictor->Sfunc->Fstartline.Sfilename = arg;
            sictor->Sfunc->Fstartblock = b;
            writefunc(sictor);
        }

        sctor = callFuncsAndGates(this, &sctors, &ectorgates, "__modctor");
        sdtor = callFuncsAndGates(this, &sdtors, NULL, "__moddtor");

#if DMDV2
        ssharedctor = callFuncsAndGates(this, &ssharedctors, (StaticDtorDeclarations *)&esharedctorgates, "__modsharedctor");
        sshareddtor = callFuncsAndGates(this, &sshareddtors, NULL, "__modshareddtor");
#endif
        stest = callFuncsAndGates(this, &stests, NULL, "__modtest");

        if (doppelganger)
            genmoduleinfo();
    }

    if (doppelganger)
    {
        objmod->termfile();
        return;
    }

    if (global.params.multiobj)
    {   /* This is necessary because the main .obj for this module is written
         * first, but determining whether marray or massert or munittest are needed is done
         * possibly later in the doppelganger modules.
         * Another way to fix it is do the main one last.
         */
        toModuleAssert();
        toModuleUnittest();
        toModuleArray();
    }

    /* Always generate module info, because of templates and -cov.
     * But module info needs the runtime library, so disable it for betterC.
     */
    if (!global.params.betterC /*|| needModuleInfo()*/)
        genmoduleinfo();

    // If module assert
    for (int i = 0; i < 3; i++)
    {
        Symbol *ma;
        unsigned rt;
        unsigned bc;
        switch (i)
        {
            case 0:     ma = marray;    rt = RTLSYM_DARRAY;     bc = BCexit; break;
            case 1:     ma = massert;   rt = RTLSYM_DASSERTM;   bc = BCexit; break;
            case 2:     ma = munittest; rt = RTLSYM_DUNITTESTM; bc = BCret;  break;
            default:    assert(0);
        }

        if (ma)
        {
            elem *elinnum;

            localgot = NULL;

            // Call dassert(filename, line)
            // Get sole parameter, linnum
            {
                Symbol *sp = symbol_calloc("linnum");
                sp->Stype = type_fake(TYint);
                sp->Stype->Tcount++;
                sp->Sclass = (config.exe == EX_WIN64) ? SCshadowreg : SCfastpar;

                FuncParamRegs fpr(TYjfunc);
                fpr.alloc(sp->Stype, sp->Stype->Tty, &sp->Spreg, &sp->Spreg2);

                sp->Sflags &= ~SFLspill;
                sp->Sfl = (sp->Sclass == SCshadowreg) ? FLpara : FLfast;
                cstate.CSpsymtab = &ma->Sfunc->Flocsym;
                symbol_add(sp);

                elinnum = el_var(sp);
            }

            elem *efilename = el_ptr(toSymbol());

            elem *e = el_var(rtlsym[rt]);
            e = el_bin(OPcall, TYvoid, e, el_param(elinnum, efilename));

            block *b = block_calloc();
            b->BC = bc;
            b->Belem = e;
            ma->Sfunc->Fstartline.Sfilename = arg;
            ma->Sfunc->Fstartblock = b;
            ma->Sclass = SCglobal;
            ma->Sfl = 0;
            ma->Sflags |= rtlsym[rt]->Sflags & SFLexit;
            writefunc(ma);
        }
    }

    objmod->termfile();
}