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view dmd/delegatize.c @ 1112:829ac3f30103

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Updating revisions.pl.in: - Change the way the LLVM SVN revision is detected, using `svn info` instead of `svnversion`. This speeds it up significantly on my machine (especially when the LLVM SVN checkout isn't in disk cache). - Add "last changed date" to SVN checkouts too, not just unpacked tarballs - No longer rely on SVN revision to detect release vs trunk checkouts, treat release checkout the same as unpacked release tarball. (Except for date determination, which uses SVN date instead of filesystem date)
author Frits van Bommel <fvbommel wxs.nl>
date Fri, 13 Mar 2009 16:18:01 +0100
parents c53b6e3fe49a
children
line wrap: on
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// Compiler implementation of the D programming language
// Copyright (c) 1999-2007 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 "mars.h"
#include "expression.h"
#include "statement.h"
#include "mtype.h"
#include "utf.h"
#include "declaration.h"
#include "aggregate.h"
#include "scope.h"

/********************************************
 * Convert from expression to delegate that returns the expression,
 * i.e. convert:
 *	expr
 * to:
 *	t delegate() { return expr; }
 */

Expression *Expression::toDelegate(Scope *sc, Type *t)
{
    //printf("Expression::toDelegate(t = %s) %s\n", t->toChars(), toChars());
    TypeFunction *tf = new TypeFunction(NULL, t, 0, LINKd);
    FuncLiteralDeclaration *fld =
	new FuncLiteralDeclaration(loc, loc, tf, TOKdelegate, NULL);
    Expression *e;
#if 1
    sc = sc->push();
    sc->parent = fld;		// set current function to be the delegate
    e = this;
    e->scanForNestedRef(sc);
    sc = sc->pop();
#else
    e = this->syntaxCopy();
#endif
    Statement *s = new ReturnStatement(loc, e);
    fld->fbody = s;
    e = new FuncExp(loc, fld);
    e = e->semantic(sc);
    return e;
}

/******************************
 * Perform scanForNestedRef() on an array of Expressions.
 */

void arrayExpressionScanForNestedRef(Scope *sc, Expressions *a)
{
    //printf("arrayExpressionScanForNestedRef(%p)\n", a);
    if (a)
    {
	for (int i = 0; i < a->dim; i++)
	{   Expression *e = (Expression *)a->data[i];

	    if (e)
	    {
		e->scanForNestedRef(sc);
	    }
	}
    }
}

void Expression::scanForNestedRef(Scope *sc)
{
    //printf("Expression::scanForNestedRef(%s)\n", toChars());
}

void SymOffExp::scanForNestedRef(Scope *sc)
{
    //printf("SymOffExp::scanForNestedRef(%s)\n", toChars());
    VarDeclaration *v = var->isVarDeclaration();
    if (v)
	v->checkNestedReference(sc, 0);
}

void VarExp::scanForNestedRef(Scope *sc)
{
    //printf("VarExp::scanForNestedRef(%s)\n", toChars());
    VarDeclaration *v = var->isVarDeclaration();
    if (v)
	v->checkNestedReference(sc, 0);
}

void ThisExp::scanForNestedRef(Scope *sc)
{
    assert(var);
    var->isVarDeclaration()->checkNestedReference(sc, 0);
}

void SuperExp::scanForNestedRef(Scope *sc)
{
    ThisExp::scanForNestedRef(sc);
}

void FuncExp::scanForNestedRef(Scope *sc)
{
    //printf("FuncExp::scanForNestedRef(%s)\n", toChars());
    //fd->parent = sc->parent;
}

void DeclarationExp::scanForNestedRef(Scope *sc)
{
    //printf("DeclarationExp::scanForNestedRef() %s\n", toChars());
    declaration->parent = sc->parent;
}

void NewExp::scanForNestedRef(Scope *sc)
{
    //printf("NewExp::scanForNestedRef(Scope *sc): %s\n", toChars());

    if (thisexp)
	thisexp->scanForNestedRef(sc);
    arrayExpressionScanForNestedRef(sc, newargs);
    arrayExpressionScanForNestedRef(sc, arguments);
}

void UnaExp::scanForNestedRef(Scope *sc)
{
    e1->scanForNestedRef(sc);
}

void BinExp::scanForNestedRef(Scope *sc)
{
    e1->scanForNestedRef(sc);
    e2->scanForNestedRef(sc);
}

void CallExp::scanForNestedRef(Scope *sc)
{
    //printf("CallExp::scanForNestedRef(Scope *sc): %s\n", toChars());
    e1->scanForNestedRef(sc);
    arrayExpressionScanForNestedRef(sc, arguments);
}


void IndexExp::scanForNestedRef(Scope *sc)
{
    e1->scanForNestedRef(sc);

    if (lengthVar)
    {	//printf("lengthVar\n");
	lengthVar->parent = sc->parent;
    }
    e2->scanForNestedRef(sc);
}


void SliceExp::scanForNestedRef(Scope *sc)
{
    e1->scanForNestedRef(sc);

    if (lengthVar)
    {	//printf("lengthVar\n");
	lengthVar->parent = sc->parent;
    }
    if (lwr)
	lwr->scanForNestedRef(sc);
    if (upr)
	upr->scanForNestedRef(sc);
}


void ArrayLiteralExp::scanForNestedRef(Scope *sc)
{
    arrayExpressionScanForNestedRef(sc, elements);
}


void AssocArrayLiteralExp::scanForNestedRef(Scope *sc)
{
    arrayExpressionScanForNestedRef(sc, keys);
    arrayExpressionScanForNestedRef(sc, values);
}


void StructLiteralExp::scanForNestedRef(Scope *sc)
{
    arrayExpressionScanForNestedRef(sc, elements);
}


void TupleExp::scanForNestedRef(Scope *sc)
{
    arrayExpressionScanForNestedRef(sc, exps);
}


void ArrayExp::scanForNestedRef(Scope *sc)
{
    e1->scanForNestedRef(sc);
    arrayExpressionScanForNestedRef(sc, arguments);
}


void CondExp::scanForNestedRef(Scope *sc)
{
    econd->scanForNestedRef(sc);
    e1->scanForNestedRef(sc);
    e2->scanForNestedRef(sc);
}