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Removed TypeOpaque from DMD. Changed runtime functions taking opaque[] to void[]. Implemented proper type painting, to avoid "resizing" array casts in runtime calls that previously took opaque[]. Implemented dynamic arrays as first class types, this implements proper ABI for these types on x86. Added dwarf region end after call to assert function, fixes some problems with llvm not allowing this to be missing. Reverted change to WithStatement from rev [704] it breaks MiniD, mini/with2.d needs to be fixed some other way... Fixed tango bug 1339 in runtime, problem with _adReverseChar on invalid UTF-8. Disabled .bc generation in the compiler runtime part, genobj.d triggers some llvm bug when using debug info. the .o seems to work fine.
author Tomas Lindquist Olsen <tomas.l.olsen@gmail.com>
date Wed, 22 Oct 2008 14:55:33 +0200
parents aaade6ded589
children 1860414bf3b7
line wrap: on
line source


// Copyright (c) 1999-2008 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 "enum.h"
#include "mtype.h"
#include "scope.h"
#include "declaration.h"

/********************************* EnumDeclaration ****************************/

EnumDeclaration::EnumDeclaration(Loc loc, Identifier *id, Type *memtype)
    : ScopeDsymbol(id)
{
    this->loc = loc;
    type = new TypeEnum(this);
    this->memtype = memtype;
    maxval = 0;
    minval = 0;
    defaultval = 0;
    sinit = NULL;
    isdeprecated = 0;
}

Dsymbol *EnumDeclaration::syntaxCopy(Dsymbol *s)
{
    Type *t = NULL;
    if (memtype)
	t = memtype->syntaxCopy();

    EnumDeclaration *ed;
    if (s)
    {	ed = (EnumDeclaration *)s;
	ed->memtype = t;
    }
    else
	ed = new EnumDeclaration(loc, ident, t);
    ScopeDsymbol::syntaxCopy(ed);
    return ed;
}

void EnumDeclaration::semantic(Scope *sc)
{   int i;
    uinteger_t number;
    Type *t;
    Scope *sce;

    //printf("EnumDeclaration::semantic(sd = %p, '%s')\n", sc->scopesym, sc->scopesym->toChars());
    if (symtab)			// if already done
	return;
    if (!memtype)
	memtype = Type::tint32;
    if (sc->stc & STCdeprecated)
	isdeprecated = 1;

    parent = sc->scopesym;
    memtype = memtype->semantic(loc, sc);

    /* Check to see if memtype is forward referenced
     */
    if (memtype->ty == Tenum)
    {	EnumDeclaration *sym = (EnumDeclaration *)memtype->toDsymbol(sc);
	if (!sym->memtype)
	{
	    error("base enum %s is forward referenced", sym->toChars());
	    memtype = Type::tint32;
	}
    }

    if (!memtype->isintegral())
    {	error("base type must be of integral type, not %s", memtype->toChars());
	memtype = Type::tint32;
    }

    t = isAnonymous() ? memtype : type;
    symtab = new DsymbolTable();
    sce = sc->push(this);
    sce->parent = this;
    number = 0;
    if (!members)		// enum ident;
	return;
    if (members->dim == 0)
	error("enum %s must have at least one member", toChars());
    int first = 1;
    for (i = 0; i < members->dim; i++)
    {
	EnumMember *em = ((Dsymbol *)members->data[i])->isEnumMember();
	Expression *e;

	if (!em)
	    /* The e->semantic(sce) can insert other symbols, such as
	     * template instances and function literals.
	     */
	    continue;

	//printf("Enum member '%s'\n",em->toChars());
	e = em->value;
	if (e)
	{
	    assert(e->dyncast() == DYNCAST_EXPRESSION);
	    e = e->semantic(sce);
	    e = e->optimize(WANTvalue);
	    // Need to copy it because we're going to change the type
	    e = e->copy();
	    e = e->implicitCastTo(sc, memtype);
	    e = e->optimize(WANTvalue);
	    number = e->toInteger();
	    e->type = t;
	}
	else
	{   // Default is the previous number plus 1

	    // Check for overflow
	    if (!first)
	    {
		switch (t->toBasetype()->ty)
		{
		    case Tbool:
			if (number == 2)	goto Loverflow;
			break;

		    case Tint8:
			if (number == 128) goto Loverflow;
			break;

		    case Tchar:
		    case Tuns8:
			if (number == 256) goto Loverflow;
			break;

		    case Tint16:
			if (number == 0x8000) goto Loverflow;
			break;

		    case Twchar:
		    case Tuns16:
			if (number == 0x10000) goto Loverflow;
			break;

		    case Tint32:
			if (number == 0x80000000) goto Loverflow;
			break;

		    case Tdchar:
		    case Tuns32:
			if (number == 0x100000000LL) goto Loverflow;
			break;

		    case Tint64:
			if (number == 0x8000000000000000LL) goto Loverflow;
			break;

		    case Tuns64:
			if (number == 0) goto Loverflow;
			break;

		    Loverflow:
			error("overflow of enum value");
			break;

		    default:
			assert(0);
		}
	    }
	    e = new IntegerExp(em->loc, number, t);
	}
	em->value = e;

	// Add to symbol table only after evaluating 'value'
	if (isAnonymous())
	{
	    //sce->enclosing->insert(em);
	    for (Scope *scx = sce->enclosing; scx; scx = scx->enclosing)
	    {
		if (scx->scopesym)
		{
		    if (!scx->scopesym->symtab)
			scx->scopesym->symtab = new DsymbolTable();
		    em->addMember(sce, scx->scopesym, 1);
		    break;
		}
	    }
	}
	else
	    em->addMember(sc, this, 1);

	if (first)
	{   first = 0;
	    defaultval = number;
	    minval = number;
	    maxval = number;
	}
	else if (memtype->isunsigned())
	{
	    if (number < minval)
		minval = number;
	    if (number > maxval)
		maxval = number;
	}
	else
	{
	    if ((sinteger_t)number < (sinteger_t)minval)
		minval = number;
	    if ((sinteger_t)number > (sinteger_t)maxval)
		maxval = number;
	}

	number++;
    }
    //printf("defaultval = %lld\n", defaultval);

    sce->pop();
    //members->print();
}

int EnumDeclaration::oneMember(Dsymbol **ps)
{
    if (isAnonymous())
	return Dsymbol::oneMembers(members, ps);
    return Dsymbol::oneMember(ps);
}

void EnumDeclaration::toCBuffer(OutBuffer *buf, HdrGenState *hgs)
{   int i;

    buf->writestring("enum ");
    if (ident)
    {	buf->writestring(ident->toChars());
	buf->writeByte(' ');
    }
    if (memtype)
    {
	buf->writestring(": ");
	memtype->toCBuffer(buf, NULL, hgs);
    }
    if (!members)
    {
	buf->writeByte(';');
	buf->writenl();
	return;
    }
    buf->writenl();
    buf->writeByte('{');
    buf->writenl();
    for (i = 0; i < members->dim; i++)
    {
	EnumMember *em = ((Dsymbol *)members->data[i])->isEnumMember();
	if (!em)
	    continue;
	//buf->writestring("    ");
	em->toCBuffer(buf, hgs);
	buf->writeByte(',');
	buf->writenl();
    }
    buf->writeByte('}');
    buf->writenl();
}

Type *EnumDeclaration::getType()
{
    return type;
}

const char *EnumDeclaration::kind()
{
    return "enum";
}

int EnumDeclaration::isDeprecated()
{
    return isdeprecated;
}

/********************************* EnumMember ****************************/

EnumMember::EnumMember(Loc loc, Identifier *id, Expression *value)
    : Dsymbol(id)
{
    this->value = value;
    this->loc = loc;
}

Dsymbol *EnumMember::syntaxCopy(Dsymbol *s)
{
    Expression *e = NULL;
    if (value)
	e = value->syntaxCopy();

    EnumMember *em;
    if (s)
    {	em = (EnumMember *)s;
	em->loc = loc;
	em->value = e;
    }
    else
	em = new EnumMember(loc, ident, e);
    return em;
}

void EnumMember::toCBuffer(OutBuffer *buf, HdrGenState *hgs)
{
    buf->writestring(ident->toChars());
    if (value)
    {
	buf->writestring(" = ");
	value->toCBuffer(buf, hgs);
    }
}

const char *EnumMember::kind()
{
    return "enum member";
}