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Make sure this testcase keeps crashing with -O3. Recent optimization improvements made LLVM realize the store-to-null was unavoidable, so it deleted all of main() and replaced it with 'unreachable'. Because the body of main() no longer even contained a return instruction, calling it caused random code to be ran instead. This happened to be the code that links in the ModuleInfo on my machine, which then returned "successfully".
author Frits van Bommel <fvbommel wxs.nl>
date Sat, 09 May 2009 00:55:47 +0200
parents f04dde6e882c
children 638d16625da2
line wrap: on
line source


// Copyright (c) 1999-2005 by Digital Mars
// All Rights Reserved
// written by Walter Bright
// http://www.digitalmars.com
// License for redistribution is by either the Artistic License
// in artistic.txt, or the GNU General Public License in gnu.txt.
// See the included readme.txt for details.

#include <stdio.h>
#include <assert.h>

#include "root.h"

#include "mars.h"
#include "init.h"
#include "identifier.h"
#include "attrib.h"
#include "dsymbol.h"
#include "scope.h"
#include "declaration.h"
#include "aggregate.h"
#include "module.h"
#include "id.h"

Scope *Scope::freelist = NULL;

void *Scope::operator new(size_t size)
{
    if (freelist)
    {
	Scope *s = freelist;
	freelist = s->enclosing;
	//printf("freelist %p\n", s);
	assert(s->flags & SCOPEfree);
	s->flags &= ~SCOPEfree;
	return s;
    }

    void *p = ::operator new(size);
    //printf("new %p\n", p);
    return p;
}

Scope::Scope()
{   // Create root scope

    //printf("Scope::Scope() %p\n", this);
    this->module = NULL;
    this->scopesym = NULL;
    this->sd = NULL;
    this->enclosing = NULL;
    this->parent = NULL;
    this->sw = NULL;
    this->tf = NULL;
    this->tfOfTry = NULL;
    this->tinst = NULL;
    this->sbreak = NULL;
    this->scontinue = NULL;
    this->fes = NULL;
    this->structalign = global.structalign;
    this->func = NULL;
    this->slabel = NULL;
    this->linkage = LINKd;
    this->protection = PROTpublic;
    this->explicitProtection = 0;
    this->stc = 0;
    this->offset = 0;
    this->inunion = 0;
    this->incontract = 0;
    this->nofree = 0;
    this->noctor = 0;
    this->noaccesscheck = 0;
    this->intypeof = 0;
    this->parameterSpecialization = 0;
    this->callSuper = 0;
    this->flags = 0;
    this->anonAgg = NULL;
    this->lastdc = NULL;
    this->lastoffset = 0;
    this->docbuf = NULL;
}

Scope::Scope(Scope *enclosing)
{
    //printf("Scope::Scope(enclosing = %p) %p\n", enclosing, this);
    assert(!(enclosing->flags & SCOPEfree));
    this->module = enclosing->module;
    this->func   = enclosing->func;
    this->parent = enclosing->parent;
    this->scopesym = NULL;
    this->sd = NULL;
    this->sw = enclosing->sw;
    this->tf = enclosing->tf;
    this->tfOfTry = enclosing->tfOfTry;
    this->tinst = enclosing->tinst;
    this->sbreak = enclosing->sbreak;
    this->scontinue = enclosing->scontinue;
    this->fes = enclosing->fes;
    this->structalign = enclosing->structalign;
    this->enclosing = enclosing;
#ifdef DEBUG
    if (enclosing->enclosing)
	assert(!(enclosing->enclosing->flags & SCOPEfree));
    if (this == enclosing->enclosing)
    {
	printf("this = %p, enclosing = %p, enclosing->enclosing = %p\n", this, enclosing, enclosing->enclosing);
    }
    assert(this != enclosing->enclosing);
#endif
    this->slabel = NULL;
    this->linkage = enclosing->linkage;
    this->protection = enclosing->protection;
    this->explicitProtection = enclosing->explicitProtection;
    this->stc = enclosing->stc;
    this->offset = 0;
    this->inunion = enclosing->inunion;
    this->incontract = enclosing->incontract;
    this->nofree = 0;
    this->noctor = enclosing->noctor;
    this->noaccesscheck = enclosing->noaccesscheck;
    this->intypeof = enclosing->intypeof;
    this->parameterSpecialization = enclosing->parameterSpecialization;
    this->callSuper = enclosing->callSuper;
    this->flags = 0;
    this->anonAgg = NULL;
    this->lastdc = NULL;
    this->lastoffset = 0;
    this->docbuf = enclosing->docbuf;
    assert(this != enclosing);
}

Scope *Scope::createGlobal(Module *module)
{
    Scope *sc;

    sc = new Scope();
    sc->module = module;
    sc->scopesym = new ScopeDsymbol();
    sc->scopesym->symtab = new DsymbolTable();

    // Add top level package as member of this global scope
    Dsymbol *m = module;
    while (m->parent)
	m = m->parent;
    m->addMember(NULL, sc->scopesym, 1);
    m->parent = NULL;			// got changed by addMember()

    // Create the module scope underneath the global scope
    sc = sc->push(module);
    sc->parent = module;
    return sc;
}

Scope *Scope::push()
{
    //printf("Scope::push()\n");
    Scope *s = new Scope(this);
    assert(this != s);
    return s;
}

Scope *Scope::push(ScopeDsymbol *ss)
{
    //printf("Scope::push(%s)\n", ss->toChars());
    Scope *s = push();
    s->scopesym = ss;
    return s;
}

Scope *Scope::pop()
{
    //printf("Scope::pop() %p nofree = %d\n", this, nofree);
    Scope *enc = enclosing;

    if (enclosing)
	enclosing->callSuper |= callSuper;

    if (!nofree)
    {	enclosing = freelist;
	freelist = this;
	flags |= SCOPEfree;
    }

    return enc;
}

void Scope::mergeCallSuper(Loc loc, unsigned cs)
{
    // This does a primitive flow analysis to support the restrictions
    // regarding when and how constructors can appear.
    // It merges the results of two paths.
    // The two paths are callSuper and cs; the result is merged into callSuper.

    if (cs != callSuper)
    {	int a;
	int b;

	callSuper |= cs & (CSXany_ctor | CSXlabel);
	if (cs & CSXreturn)
	{
	}
	else if (callSuper & CSXreturn)
	{
	    callSuper = cs | (callSuper & (CSXany_ctor | CSXlabel));
	}
	else
	{
	    a = (cs        & (CSXthis_ctor | CSXsuper_ctor)) != 0;
	    b = (callSuper & (CSXthis_ctor | CSXsuper_ctor)) != 0;
	    if (a != b)
		error(loc, "one path skips constructor");
	    callSuper |= cs;
	}
    }
}

Dsymbol *Scope::search(Loc loc, Identifier *ident, Dsymbol **pscopesym)
{   Dsymbol *s;
    Scope *sc;

    //printf("Scope::search(%p, '%s')\n", this, ident->toChars());
    if (ident == Id::empty)
    {
	// Look for module scope
	for (sc = this; sc; sc = sc->enclosing)
	{
	    assert(sc != sc->enclosing);
	    if (sc->scopesym)
	    {
		s = sc->scopesym->isModule();
		if (s)
		{
		    //printf("\tfound %s.%s\n", s->parent ? s->parent->toChars() : "", s->toChars());
		    if (pscopesym)
			*pscopesym = sc->scopesym;
		    return s;
		}
	    }
	}
	return NULL;
    }

    for (sc = this; sc; sc = sc->enclosing)
    {
	assert(sc != sc->enclosing);
	if (sc->scopesym)
	{
	    //printf("\tlooking in scopesym '%s', kind = '%s'\n", sc->scopesym->toChars(), sc->scopesym->kind());
	    s = sc->scopesym->search(loc, ident, 0);
	    if (s)
	    {
		if ((global.params.warnings ||
		    global.params.Dversion > 1) &&
		    ident == Id::length &&
		    sc->scopesym->isArrayScopeSymbol() &&
		    sc->enclosing &&
		    sc->enclosing->search(loc, ident, NULL))
		{
            // WTF ?
		    if (global.params.warnings)
			fprintf(stdmsg, "warning - ");
		    error(s->loc, "array 'length' hides other 'length' name in outer scope");
		}

		//printf("\tfound %s.%s, kind = '%s'\n", s->parent ? s->parent->toChars() : "", s->toChars(), s->kind());
		if (pscopesym)
		    *pscopesym = sc->scopesym;
		return s;
	    }
	}
    }

    return NULL;
}

Dsymbol *Scope::insert(Dsymbol *s)
{   Scope *sc;

    for (sc = this; sc; sc = sc->enclosing)
    {
	//printf("\tsc = %p\n", sc);
	if (sc->scopesym)
	{
	    //printf("\t\tsc->scopesym = %p\n", sc->scopesym);
	    if (!sc->scopesym->symtab)
		sc->scopesym->symtab = new DsymbolTable();
	    return sc->scopesym->symtab->insert(s);
	}
    }
    assert(0);
    return NULL;
}

/********************************************
 * Search enclosing scopes for ClassDeclaration.
 */

ClassDeclaration *Scope::getClassScope()
{   Scope *sc;

    for (sc = this; sc; sc = sc->enclosing)
    {
	ClassDeclaration *cd;
	
	if (sc->scopesym)
	{
	    cd = sc->scopesym->isClassDeclaration();
	    if (cd)
		return cd;
	}
    }
    return NULL;
}

/********************************************
 * Search enclosing scopes for ClassDeclaration.
 */

AggregateDeclaration *Scope::getStructClassScope()
{   Scope *sc;

    for (sc = this; sc; sc = sc->enclosing)
    {
	AggregateDeclaration *ad;
	
	if (sc->scopesym)
	{
	    ad = sc->scopesym->isClassDeclaration();
	    if (ad)
		return ad;
	    else
	    {	ad = sc->scopesym->isStructDeclaration();
		if (ad)
		    return ad;
	    }
	}
    }
    return NULL;
}

/*******************************************
 * For TemplateDeclarations, we need to remember the Scope
 * where it was declared. So mark the Scope as not
 * to be free'd.
 */

void Scope::setNoFree()
{   Scope *sc;
    //int i = 0;

    //printf("Scope::setNoFree(this = %p)\n", this);
    for (sc = this; sc; sc = sc->enclosing)
    {
	//printf("\tsc = %p\n", sc);
	sc->nofree = 1;

	assert(!(flags & SCOPEfree));
	//assert(sc != sc->enclosing);
	//assert(!sc->enclosing || sc != sc->enclosing->enclosing);
	//if (++i == 10)
	    //assert(0);
    }
}