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RoboVM fork of Soot - A Java optimization framework
/* Soot - a J*va Optimization Framework
* Copyright (C) 1999 Phong Co
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
/*
* Modified by the Sable Research Group and others 1997-1999.
* See the 'credits' file distributed with Soot for the complete list of
* contributors. (Soot is distributed at http://www.sable.mcgill.ca/soot)
*/
package soot.jimple.toolkits.scalar;
import soot.options.*;
import soot.*;
import soot.toolkits.scalar.*;
import soot.jimple.*;
import java.util.*;
import soot.toolkits.graph.*;
/** Does constant propagation and folding.
* Constant folding is the compile-time evaluation of constant
* expressions (i.e. 2 * 3). */
public class ConstantPropagatorAndFolder extends BodyTransformer
{
public ConstantPropagatorAndFolder( Singletons.Global g ) {}
public static ConstantPropagatorAndFolder v() { return G.v().soot_jimple_toolkits_scalar_ConstantPropagatorAndFolder(); }
protected void internalTransform(Body b, String phaseName, Map options)
{
StmtBody stmtBody = (StmtBody)b;
int numFolded = 0;
int numPropagated = 0;
if (Options.v().verbose())
G.v().out.println("[" + stmtBody.getMethod().getName() +
"] Propagating and folding constants...");
ExceptionalUnitGraph unitGraph = new ExceptionalUnitGraph(stmtBody);
LocalDefs localDefs;
localDefs = new SmartLocalDefs(unitGraph, new SimpleLiveLocals(unitGraph));
// Perform a constant/local propagation pass.
Iterator stmtIt = (new PseudoTopologicalOrderer()).newList(unitGraph,false).iterator();
// go through each use box in each statement
while (stmtIt.hasNext()) {
Stmt stmt = (Stmt) stmtIt.next();
// propagation pass
Iterator useBoxIt = stmt.getUseBoxes().iterator();
ValueBox useBox;
while (useBoxIt.hasNext()) {
useBox = (ValueBox) useBoxIt.next();
if (useBox.getValue() instanceof Local) {
Local local = (Local) useBox.getValue();
List defsOfUse = localDefs.getDefsOfAt(local, stmt);
if (defsOfUse.size() == 1) {
DefinitionStmt defStmt =
(DefinitionStmt) defsOfUse.get(0);
if (defStmt.getRightOp() instanceof NumericConstant) {
if (useBox.canContainValue(defStmt.getRightOp())) {
useBox.setValue(defStmt.getRightOp());
numPropagated++;
}
}
}
}
}
// folding pass
useBoxIt = stmt.getUseBoxes().iterator();
while (useBoxIt.hasNext()) {
useBox = (ValueBox) useBoxIt.next();
Value value = useBox.getValue();
if (!(value instanceof Constant)) {
if (Evaluator.isValueConstantValued(value)) {
Value constValue =
Evaluator.getConstantValueOf(value);
if (useBox.canContainValue(constValue)) {
useBox.setValue(constValue);
numFolded++;
}
}
}
}
}
if (Options.v().verbose())
G.v().out.println("[" + stmtBody.getMethod().getName() +
"] Propagated: " + numPropagated + ", Folded: " + numFolded);
} // optimizeConstants
}