@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; }
private boolean briefStatementComparison(List<Statement> firstSeq, List<Statement> secondSeq) { if (firstSeq.isEmpty() && secondSeq.isEmpty()) { return true; } if (firstSeq.size() != 1 || secondSeq.size() != 1) { return false; } Statement first = firstSeq.get(0); Statement second = secondSeq.get(0); if (first instanceof BreakStatement && second instanceof BreakStatement) { BreakStatement firstBreak = (BreakStatement) first; BreakStatement secondBreak = (BreakStatement) second; return firstBreak.getTarget() == secondBreak.getTarget(); } return false; }
@Override public void visit(VariableExpr expr) { int index = expr.getIndex(); resultExpr = expr; if (readFrequencies[index] != 1 || preservedVars[index]) { return; } if (resultSequence.isEmpty()) { return; } Statement last = resultSequence.get(resultSequence.size() - 1); if (!(last instanceof AssignmentStatement)) { return; } AssignmentStatement assignment = (AssignmentStatement) last; if (assignment.isAsync()) { return; } if (!(assignment.getLeftValue() instanceof VariableExpr)) { return; } VariableExpr var = (VariableExpr) assignment.getLeftValue(); if (var.getLocation() != null && assignment.getLocation() != null && !assignment.getLocation().equals(var.getLocation())) { return; } if (var.getIndex() == index) { resultSequence.remove(resultSequence.size() - 1); assignment.getRightValue().setLocation(assignment.getLocation()); assignment.getRightValue().acceptVisitor(this); } }
private void wieldTryCatch(List<Statement> statements) { for (int i = 0; i < statements.size() - 1; ++i) { if (statements.get(i) instanceof TryCatchStatement && statements.get(i + 1) instanceof TryCatchStatement) { TryCatchStatement first = (TryCatchStatement) statements.get(i); TryCatchStatement second = (TryCatchStatement) statements.get(i + 1); if (Objects.equals(first.getExceptionType(), second.getExceptionType()) && Objects.equals(first.getExceptionVariable(), second.getExceptionVariable()) && briefStatementComparison(first.getHandler(), second.getHandler())) { first.getProtectedBody().addAll(second.getProtectedBody()); statements.remove(i + 1); wieldTryCatch(first.getProtectedBody()); --i; } } } }
@Override public void visit(SequentialStatement statement) { List<Statement> statements = processSequence(statement.getSequence()); if (statements.size() == 1) { resultStmt = statements.get(0); } else { statement.getSequence().clear(); statement.getSequence().addAll(statements); resultStmt = statement; } }
private boolean tryApplyConstructor(InvocationExpr expr) { if (!expr.getMethod().getName().equals("<init>")) { return false; } if (resultSequence == null || resultSequence.isEmpty()) { return false; } Statement last = resultSequence.get(resultSequence.size() - 1); if (!(last instanceof AssignmentStatement)) { return false; } AssignmentStatement assignment = (AssignmentStatement) last; if (!(assignment.getLeftValue() instanceof VariableExpr)) { return false; } VariableExpr var = (VariableExpr) assignment.getLeftValue(); if (!(expr.getArguments().get(0) instanceof VariableExpr)) { return false; } VariableExpr target = (VariableExpr) expr.getArguments().get(0); if (target.getIndex() != var.getIndex()) { return false; } if (!(assignment.getRightValue() instanceof NewExpr)) { return false; } NewExpr constructed = (NewExpr) assignment.getRightValue(); if (!constructed.getConstructedClass().equals(expr.getMethod().getClassName())) { return false; } Expr[] args = expr.getArguments().toArray(new Expr[0]); args = Arrays.copyOfRange(args, 1, args.length); InvocationExpr constructrExpr = Expr.constructObject(expr.getMethod(), args); constructrExpr.setLocation(expr.getLocation()); assignment.setRightValue(constructrExpr); readFrequencies[var.getIndex()]--; return true; }
@Override public void visit(SwitchInstruction insn) { SwitchStatement stmt = new SwitchStatement(); stmt.setId("sblock" + (lastSwitchId++)); stmt.setValue(Expr.var(insn.getCondition().getIndex())); Map<Integer, List<Integer>> switchMap = new HashMap<>(); for (int i = 0; i < insn.getEntries().size(); ++i) { SwitchTableEntry entry = insn.getEntries().get(i); List<Integer> conditions = switchMap.get(entry.getTarget().getIndex()); if (conditions == null) { conditions = new ArrayList<>(); switchMap.put(entry.getTarget().getIndex(), conditions); } conditions.add(entry.getCondition()); } List<Integer> targets = new ArrayList<>(switchMap.keySet()); Collections.sort(targets); for (int target : targets) { SwitchClause clause = new SwitchClause(); List<Integer> conditionList = switchMap.get(target); int[] conditions = new int[conditionList.size()]; for (int i = 0; i < conditionList.size(); ++i) { conditions[i] = conditionList.get(i); } clause.setConditions(conditions); Statement jumpStmt = generateJumpStatement(stmt, target); if (jumpStmt != null) { clause.getBody().add(jumpStmt); } stmt.getClauses().add(clause); } Statement breakStmt = generateJumpStatement(insn.getDefaultTarget()); if (breakStmt != null) { stmt.getDefaultClause().add(breakStmt); } statements.add(stmt); }
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); } } }