/* * Copyright (c) Facebook, Inc. and its affiliates. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ import java.io.*; import java.util.ArrayList; import java.util.Enumeration; import java.util.Iterator; import java.util.Queue; class PurityModeled { double math_random_impure() { return Math.random(); } double math_random_infeasible_pure(int x) { if (x > 1 && x < 2) { return Math.random(); // this path will never be taken } return 0; } void arraycopy_pure(int[] src) { int[] dst = {5, 10, 20, 30, 40, 50}; // copies an array from the specified source array System.arraycopy(src, 0, dst, 0, 1); } public void array_length_loop_pure(Integer[] array) { for (int i = 0; i < array.length; i++) {} } void write_impure() { byte[] temp = new byte[4]; System.out.write(temp, 0, 4); } void call_write_impure() { write_impure(); } int math_random_in_loop_impure(int x) { int p = 0; for (int i = 0; i < x; i++) { p += Math.random(); call_write_impure(); } return p; } void list_size_pure(ArrayList list) { for (int i = 0; i < list.size(); i++) {} } void list_add_impure(ArrayList list) { list.add("a"); } void list_addall_impure(ArrayList list1, ArrayList list2) { list1.addAll(list2); } void enum_loop_pure(Enumeration e) { for (; e.hasMoreElements(); ) { Object o = e.nextElement(); } } void remove_impure(Iterator i) { while (i.hasNext()) { if (i.next().equals("Orange")) { i.remove(); break; } } } void list_set_impure(ArrayList list) { list.set(0, "e"); } void call_set_impure(ArrayList list) { list_set_impure(list); list_set_impure(list); } // Pulse can only widen a fixed number of times, hence it thinks // that the exit of the loop never reaches and results in empty // post. void timing_call_in_loop_impure() { for (int i = 0; i < 10; i++) { System.nanoTime(); } } // Pulse can only widen a fixed number of times, hence it thinks // that the exit of the loop never reaches and results in empty // post which is considered to be impure. void constant_loop_pure_FP() { for (int i = 0; i < 10; i++) {} } // Since n is symbolic, pruning doesn't result in infeasible path, // but we assume that the parameter [n] must be 3 due to constant(4) // "widening" in pulse. void timing_call_in_loop_symb_impure(int n) { for (int i = 0; i < n; i++) { System.nanoTime(); } } // Due to getting the wrong summary for the callee (a=3), Pulse ends // up thinking that the parameter [a] must be 3 in the loop. Hence, as // a result of pruning, exit node becomes infeasible and we get // empty summary which is considered to be impure. void call_timing_symb_impure(int a) { for (int i = 0; i < a; i++) { timing_call_in_loop_symb_impure(a); } } // The relation between the parameter and the argument to the callee // is broken. Although, the final pulse summary for this function is // still wrong. void call_timing_symb_unrelated_impure(int a, int b) { for (int i = 0; i < a; i++) { timing_call_in_loop_symb_impure(b); } } enum Color { RED, GREEN, BLUE; // values() calls clone } public void enum_iter_pure() { for (Color c : Color.values()) {} } @SuppressWarnings("unchecked") void clone_pure(ArrayList list) { ArrayList cloned = (ArrayList) list.clone(); cloned.add(""); // no change the list } String replace_impure(String s) { return s.replace('a', 'f'); } void process_queue_impure(ArrayList list, Queue queue) { for (Integer el : list) { queue.add(el); } } String add_impure(ArrayList list) { Integer el = list.get(0); list.add(4); return el.toString(); } void append_impure(StringBuilder strBuilder) { strBuilder.append("JavaGuru"); } void append_pure() { StringBuilder strBuilder = new StringBuilder("Core"); strBuilder.append("JavaGuru"); } Integer next_impure(Iterator it) { return it.next(); } String remove_iterator_impure(Iterator listIterator) { Integer f = listIterator.next(); listIterator.remove(); return f.toString(); } String remove_fresh_impure(ArrayList list) { Iterator listIterator = list.iterator(); Integer f = listIterator.next(); listIterator.remove(); return f.toString(); } void remove_impure_mult(ArrayList list) { String s1 = remove_fresh_impure(list); String s2 = remove_fresh_impure(list); } public static void remove_all_impure(ArrayList list) { for (Iterator iter = list.iterator(); iter.hasNext(); ) { Integer entry = iter.next(); iter.remove(); System.out.println(entry.toString()); } } void nested_remove_impure(ArrayList> list) { Iterator> listIterator = list.iterator(); while (listIterator.hasNext()) { ArrayList inner_list = listIterator.next(); Iterator innerListIterator = inner_list.iterator(); while (innerListIterator.hasNext()) { Integer el = innerListIterator.next(); innerListIterator.remove(); } } } void remove_all_directly_impure(ArrayList list) { for (Integer el : list) { list.remove(el); // bad, must remove via iterator. } } public static final String toString_delete_pure(Object args) { StringBuilder builder = new StringBuilder(32).append('{'); if (args != null) { if (builder.charAt(builder.length() - 2) == ',') { builder.delete(builder.length() - 2, builder.length()); } } builder.append('}').setLength(10); return builder.toString(); } String getCanonicalPath_pure(File file) throws IOException { return file.getCanonicalPath(); } }