private void normalizeConditional(ConditionalStatement stmt) {
if (stmt.getConsequent().isEmpty()) {
stmt.getConsequent().addAll(stmt.getAlternative());
stmt.getAlternative().clear();
stmt.setCondition(ExprOptimizer.invert(stmt.getCondition()));
}
}
@Override
public void visit(WhileStatement statement) {
if (statement.getBody().size() == 1 && statement.getBody().get(0) instanceof WhileStatement) {
WhileStatement innerLoop = (WhileStatement) statement.getBody().get(0);
BreakToContinueReplacer replacer = new BreakToContinueReplacer(innerLoop, statement);
replacer.visitSequence(innerLoop.getBody());
statement.getBody().clear();
statement.getBody().addAll(innerLoop.getBody());
}
List<Statement> statements = processSequence(statement.getBody());
for (int i = 0; i < statements.size(); ++i) {
if (statements.get(i) instanceof ContinueStatement) {
ContinueStatement continueStmt = (ContinueStatement) statements.get(i);
if (continueStmt.getTarget() == statement) {
statements.subList(i, statements.size()).clear();
break;
}
}
}
statement.getBody().clear();
statement.getBody().addAll(statements);
if (statement.getCondition() != null) {
List<Statement> sequenceBackup = resultSequence;
resultSequence = new ArrayList<>();
statement.getCondition().acceptVisitor(this);
statement.setCondition(resultExpr);
resultSequence = sequenceBackup;
}
while (true) {
if (!statement.getBody().isEmpty()
&& statement.getBody().get(0) instanceof ConditionalStatement) {
ConditionalStatement cond = (ConditionalStatement) statement.getBody().get(0);
if (cond.getConsequent().size() == 1
&& cond.getConsequent().get(0) instanceof BreakStatement) {
BreakStatement breakStmt = (BreakStatement) cond.getConsequent().get(0);
if (breakStmt.getTarget() == statement) {
statement.getBody().remove(0);
if (statement.getCondition() != null) {
Expr newCondition =
Expr.binary(
BinaryOperation.AND,
statement.getCondition(),
ExprOptimizer.invert(cond.getCondition()));
newCondition.setLocation(statement.getCondition().getLocation());
statement.setCondition(newCondition);
} else {
statement.setCondition(ExprOptimizer.invert(cond.getCondition()));
}
continue;
}
}
}
break;
}
resultStmt = statement;
}
@Override
public void visit(ConditionalStatement statement) {
statement.getCondition().acceptVisitor(this);
statement.setCondition(resultExpr);
List<Statement> consequent = processSequence(statement.getConsequent());
List<Statement> alternative = processSequence(statement.getAlternative());
if (consequent.isEmpty()) {
consequent.addAll(alternative);
alternative.clear();
statement.setCondition(ExprOptimizer.invert(statement.getCondition()));
}
if (consequent.isEmpty()) {
resultStmt = Statement.empty();
return;
}
statement.getConsequent().clear();
statement.getConsequent().addAll(consequent);
statement.getAlternative().clear();
statement.getAlternative().addAll(alternative);
resultStmt = statement;
}
private void eliminateRedundantBreaks(List<Statement> statements, IdentifiedStatement exit) {
if (statements.isEmpty()) {
return;
}
Statement last = statements.get(statements.size() - 1);
if (last instanceof BreakStatement && exit != null) {
IdentifiedStatement target = ((BreakStatement) last).getTarget();
if (exit == target) {
statements.remove(statements.size() - 1);
}
}
if (statements.isEmpty()) {
return;
}
for (int i = 0; i < statements.size(); ++i) {
Statement stmt = statements.get(i);
if (stmt instanceof ConditionalStatement) {
ConditionalStatement cond = (ConditionalStatement) stmt;
check_conditional:
{
last =
cond.getConsequent().isEmpty()
? null
: cond.getConsequent().get(cond.getConsequent().size() - 1);
if (last instanceof BreakStatement) {
BreakStatement breakStmt = (BreakStatement) last;
if (exit != null && exit == breakStmt.getTarget()) {
cond.getConsequent().remove(cond.getConsequent().size() - 1);
List<Statement> remaining = statements.subList(i + 1, statements.size());
cond.getAlternative().addAll(remaining);
remaining.clear();
break check_conditional;
}
}
last =
cond.getAlternative().isEmpty()
? null
: cond.getAlternative().get(cond.getAlternative().size() - 1);
if (last instanceof BreakStatement) {
BreakStatement breakStmt = (BreakStatement) last;
if (exit != null && exit == breakStmt.getTarget()) {
cond.getAlternative().remove(cond.getAlternative().size() - 1);
List<Statement> remaining = statements.subList(i + 1, statements.size());
cond.getConsequent().addAll(remaining);
remaining.clear();
}
}
}
if (i == statements.size() - 1) {
eliminateRedundantBreaks(cond.getConsequent(), exit);
eliminateRedundantBreaks(cond.getAlternative(), exit);
}
normalizeConditional(cond);
if (cond.getConsequent().size() == 1
&& cond.getConsequent().get(0) instanceof ConditionalStatement) {
ConditionalStatement innerCond = (ConditionalStatement) cond.getConsequent().get(0);
if (innerCond.getAlternative().isEmpty()) {
if (cond.getAlternative().isEmpty()) {
cond.getConsequent().clear();
cond.getConsequent().addAll(innerCond.getConsequent());
cond.setCondition(
Expr.binary(
BinaryOperation.AND,
cond.getCondition(),
innerCond.getCondition(),
cond.getCondition().getLocation()));
--i;
} else if (cond.getAlternative().size() != 1
|| !(cond.getAlternative().get(0) instanceof ConditionalStatement)) {
cond.setCondition(ExprOptimizer.invert(cond.getCondition()));
cond.getConsequent().clear();
cond.getConsequent().addAll(cond.getAlternative());
cond.getAlternative().clear();
cond.getAlternative().add(innerCond);
--i;
}
}
}
} else if (stmt instanceof BlockStatement) {
BlockStatement nestedBlock = (BlockStatement) stmt;
eliminateRedundantBreaks(nestedBlock.getBody(), nestedBlock);
} else if (stmt instanceof WhileStatement) {
WhileStatement whileStmt = (WhileStatement) stmt;
eliminateRedundantBreaks(whileStmt.getBody(), null);
} else if (stmt instanceof SwitchStatement) {
SwitchStatement switchStmt = (SwitchStatement) stmt;
for (SwitchClause clause : switchStmt.getClauses()) {
eliminateRedundantBreaks(clause.getBody(), null);
}
eliminateRedundantBreaks(switchStmt.getDefaultClause(), null);
}
}
}