/* * 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.util.ArrayList; class Test { private int a = 0; static Integer[] global_arr; void Test(int size) { global_arr = new Integer[size]; } void set_impure(int x, int y) { a = x + y; } void global_array_set_impure(int x, int y) { global_arr[0] = x + y; } int local_write_pure(int x, int y) { int k = x + y; k++; return k; } void call_pure_pure(int size) { for (int i = 0; i < size; i++) { local_write_pure(i, size); } } void call_impure_impure(int size) { int d = 0; for (int i = 0; i < size; i++) { set_impure(i, size); } } // no change to outside state, the local allocation is ok. int local_alloc_pure(int x, int y) { ArrayList list = new ArrayList(x + y); for (Integer el : list) { call_pure_pure(el); } return list.size(); } void parameter_field_write_impure(Test test, boolean b) { int c = b ? 0 : 1; test.a = c; } int parameter_field_access_pure(Test test) { return test.a; } // expected to be impure since y points to x void local_field_write_impure(Test x) { Test y = x; y.a = 0; } void swap_impure(int[] array, int i, int j) { int tmp = array[i]; array[i] = array[j]; array[j] = tmp; } void alias_impure(int[] array, int i, int j) { int[] a = array; a[j] = i; } // Currently, we can't distinguish between returning new Objects or // creating new Objects locally. Ideally, the latter should be fine // as long as it doesn't leak to the result. public ArrayList emptyList_impure_FN() { return new ArrayList(); } // All unmodeled calls should be considered impure static long systemNanoTime_impure() { return System.nanoTime(); } void exit_impure() { System.exit(1); } void modify_exit_impure(int[] a) { a[0] = 0; System.exit(1); } // We get no pulse summary, hence consider this as impure void while_true_impure() { while (true) {} } }