@Override public Instruction execute(ThreadInfo th) { IntegerExpression sym_lval = (IntegerExpression) th.getModifiableTopFrame().getLongOperandAttr(); if (sym_lval == null) { return super.execute(th); } else { // throw new RuntimeException("## Error: symbolic L2F not yet hanled "); // here we get a hold of the current path condition and // add an extra mixed constraint sym_dval==sym_ival ChoiceGenerator<?> cg; if (!th.isFirstStepInsn()) { // first time around cg = new PCChoiceGenerator(1); // only one choice th.getVM().getSystemState().setNextChoiceGenerator(cg); return this; } else { // this is what really returns results cg = th.getVM().getSystemState().getChoiceGenerator(); assert (cg instanceof PCChoiceGenerator) : "expected PCChoiceGenerator, got: " + cg; } // get the path condition from the // previous choice generator of the same type PathCondition pc; ChoiceGenerator<?> prev_cg = cg.getPreviousChoiceGenerator(); while (!((prev_cg == null) || (prev_cg instanceof PCChoiceGenerator))) { prev_cg = prev_cg.getPreviousChoiceGenerator(); } if (prev_cg == null) pc = new PathCondition(); // TODO: handling of preconditions needs to be changed else pc = ((PCChoiceGenerator) prev_cg).getCurrentPC(); assert pc != null; StackFrame sf = th.getModifiableTopFrame(); sf.popLong(); sf.push(0, false); // for symbolic expressions, the concrete value does not matter SymbolicReal sym_fval = new SymbolicReal(); sf.setOperandAttr(sym_fval); pc._addDet(Comparator.EQ, sym_fval, sym_lval); if (!pc.simplify()) { // not satisfiable th.getVM().getSystemState().setIgnored(true); } else { // pc.solve(); ((PCChoiceGenerator) cg).setCurrentPC(pc); // System.out.println(((PCChoiceGenerator) cg).getCurrentPC()); } // System.out.println("Execute L2F: " + sf.getLongOperandAttr()); return getNext(th); } }
protected void popValue(StackFrame frame) { value = Double.longBitsToDouble(frame.popLong()); }
@Override public Instruction execute(ThreadInfo th) { StackFrame sf = th.getModifiableTopFrame(); IntegerExpression sym_v1 = (IntegerExpression) sf.getOperandAttr(1); IntegerExpression sym_v2 = (IntegerExpression) sf.getOperandAttr(3); long v1, v2; if (sym_v1 == null && sym_v2 == null) return super.execute(th); // we'll still do the concrete execution // result is symbolic if (sym_v1 == null && sym_v2 != null) { v1 = sf.popLong(); v2 = sf.popLong(); if (v1 == 0) return th.createAndThrowException("java.lang.ArithmeticException", "div by 0"); sf.pushLong(0); IntegerExpression result = sym_v2._div(v1); sf.setLongOperandAttr(result); return getNext(th); } // div by zero check affects path condition // sym_v1 is non-null and should be checked against zero ChoiceGenerator<?> cg; boolean condition; if (!th.isFirstStepInsn()) { // first time around cg = new PCChoiceGenerator(2); ((PCChoiceGenerator) cg).setOffset(this.position); ((PCChoiceGenerator) cg).setMethodName(this.getMethodInfo().getFullName()); th.getVM().getSystemState().setNextChoiceGenerator(cg); return this; } else { // this is what really returns results cg = th.getVM().getSystemState().getChoiceGenerator(); assert (cg instanceof PCChoiceGenerator) : "expected PCChoiceGenerator, got: " + cg; condition = (Integer) cg.getNextChoice() == 0 ? false : true; } v1 = sf.popLong(); v2 = sf.popLong(); sf.pushLong(0); PathCondition pc; ChoiceGenerator<?> prev_cg = cg.getPreviousChoiceGenerator(); while (!((prev_cg == null) || (prev_cg instanceof PCChoiceGenerator))) { prev_cg = prev_cg.getPreviousChoiceGenerator(); } if (prev_cg == null) pc = new PathCondition(); else pc = ((PCChoiceGenerator) prev_cg).getCurrentPC(); assert pc != null; if (condition) { // check div by zero pc._addDet(Comparator.EQ, sym_v1, 0); if (pc.simplify()) { // satisfiable ((PCChoiceGenerator) cg).setCurrentPC(pc); return th.createAndThrowException("java.lang.ArithmeticException", "div by 0"); } else { th.getVM().getSystemState().setIgnored(true); return getNext(th); } } else { pc._addDet(Comparator.NE, sym_v1, 0); if (pc.simplify()) { // satisfiable ((PCChoiceGenerator) cg).setCurrentPC(pc); // set the result IntegerExpression result; if (sym_v2 != null) result = sym_v2._div(sym_v1); else result = sym_v1._div_reverse(v2); sf = th.getModifiableTopFrame(); sf.setLongOperandAttr(result); return getNext(th); } else { th.getVM().getSystemState().setIgnored(true); return getNext(th); } } }