/* Copyright (c) 2018 Contributors as noted in the AUTHORS file This file is part of 0MQ. 0MQ is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. 0MQ is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #include "../tests/testutil.hpp" #include #include #include #include #include #include #include void setUp () { } void tearDown () { } bool tree_add (zmq::radix_tree_t &tree_, const std::string &key_) { return tree_.add (reinterpret_cast (key_.data ()), key_.size ()); } bool tree_rm (zmq::radix_tree_t &tree_, const std::string &key_) { return tree_.rm (reinterpret_cast (key_.data ()), key_.size ()); } bool tree_check (zmq::radix_tree_t &tree_, const std::string &key_) { return tree_.check (reinterpret_cast (key_.data ()), key_.size ()); } void test_empty () { zmq::radix_tree_t tree; TEST_ASSERT_TRUE (tree.size () == 0); } void test_add_single_entry () { zmq::radix_tree_t tree; TEST_ASSERT_TRUE (tree_add (tree, "foo")); } void test_add_same_entry_twice () { zmq::radix_tree_t tree; TEST_ASSERT_TRUE (tree_add (tree, "test")); TEST_ASSERT_FALSE (tree_add (tree, "test")); } void test_rm_when_empty () { zmq::radix_tree_t tree; TEST_ASSERT_FALSE (tree_rm (tree, "test")); } void test_rm_single_entry () { zmq::radix_tree_t tree; tree_add (tree, "temporary"); TEST_ASSERT_TRUE (tree_rm (tree, "temporary")); } void test_rm_unique_entry_twice () { zmq::radix_tree_t tree; tree_add (tree, "test"); TEST_ASSERT_TRUE (tree_rm (tree, "test")); TEST_ASSERT_FALSE (tree_rm (tree, "test")); } void test_rm_duplicate_entry () { zmq::radix_tree_t tree; tree_add (tree, "test"); tree_add (tree, "test"); TEST_ASSERT_FALSE (tree_rm (tree, "test")); TEST_ASSERT_TRUE (tree_rm (tree, "test")); } void test_rm_common_prefix () { zmq::radix_tree_t tree; tree_add (tree, "checkpoint"); tree_add (tree, "checklist"); TEST_ASSERT_FALSE (tree_rm (tree, "check")); } void test_rm_common_prefix_entry () { zmq::radix_tree_t tree; tree_add (tree, "checkpoint"); tree_add (tree, "checklist"); tree_add (tree, "check"); TEST_ASSERT_TRUE (tree_rm (tree, "check")); } void test_rm_null_entry () { zmq::radix_tree_t tree; tree_add (tree, ""); TEST_ASSERT_TRUE (tree_rm (tree, "")); } void test_check_empty () { zmq::radix_tree_t tree; TEST_ASSERT_FALSE (tree_check (tree, "foo")); } void test_check_added_entry () { zmq::radix_tree_t tree; tree_add (tree, "entry"); TEST_ASSERT_TRUE (tree_check (tree, "entry")); } void test_check_common_prefix () { zmq::radix_tree_t tree; tree_add (tree, "introduce"); tree_add (tree, "introspect"); TEST_ASSERT_FALSE (tree_check (tree, "intro")); } void test_check_prefix () { zmq::radix_tree_t tree; tree_add (tree, "toasted"); TEST_ASSERT_FALSE (tree_check (tree, "toast")); TEST_ASSERT_FALSE (tree_check (tree, "toaste")); TEST_ASSERT_FALSE (tree_check (tree, "toaster")); } void test_check_nonexistent_entry () { zmq::radix_tree_t tree; tree_add (tree, "red"); TEST_ASSERT_FALSE (tree_check (tree, "blue")); } void test_check_query_longer_than_entry () { zmq::radix_tree_t tree; tree_add (tree, "foo"); TEST_ASSERT_TRUE (tree_check (tree, "foobar")); } void test_check_null_entry_added () { zmq::radix_tree_t tree; tree_add (tree, ""); TEST_ASSERT_TRUE (tree_check (tree, "all queries return true")); } void test_size () { zmq::radix_tree_t tree; // Adapted from the example on wikipedia. std::vector keys; keys.push_back ("tester"); keys.push_back ("water"); keys.push_back ("slow"); keys.push_back ("slower"); keys.push_back ("test"); keys.push_back ("team"); keys.push_back ("toast"); for (size_t i = 0; i < keys.size (); ++i) TEST_ASSERT_TRUE (tree_add (tree, keys[i])); TEST_ASSERT_TRUE (tree.size () == keys.size ()); for (size_t i = 0; i < keys.size (); ++i) TEST_ASSERT_FALSE (tree_add (tree, keys[i])); TEST_ASSERT_TRUE (tree.size () == 2 * keys.size ()); for (size_t i = 0; i < keys.size (); ++i) TEST_ASSERT_FALSE (tree_rm (tree, keys[i])); TEST_ASSERT_TRUE (tree.size () == keys.size ()); for (size_t i = 0; i < keys.size (); ++i) TEST_ASSERT_TRUE (tree_rm (tree, keys[i])); TEST_ASSERT_TRUE (tree.size () == 0); } void return_key (unsigned char *data_, size_t size_, void *arg_) { std::vector *vec = reinterpret_cast *> (arg_); std::string key; for (size_t i = 0; i < size_; ++i) key.push_back (static_cast (data_[i])); vec->push_back (key); } void test_apply () { zmq::radix_tree_t tree; std::set keys; keys.insert ("tester"); keys.insert ("water"); keys.insert ("slow"); keys.insert ("slower"); keys.insert ("test"); keys.insert ("team"); keys.insert ("toast"); const std::set::iterator end = keys.end (); for (std::set::iterator it = keys.begin (); it != end; ++it) tree_add (tree, *it); std::vector *vec = new std::vector (); tree.apply (return_key, static_cast (vec)); for (size_t i = 0; i < vec->size (); ++i) TEST_ASSERT_TRUE (keys.count ((*vec)[i]) > 0); delete vec; } int main (void) { setup_test_environment (); UNITY_BEGIN (); RUN_TEST (test_empty); RUN_TEST (test_add_single_entry); RUN_TEST (test_add_same_entry_twice); RUN_TEST (test_rm_when_empty); RUN_TEST (test_rm_single_entry); RUN_TEST (test_rm_unique_entry_twice); RUN_TEST (test_rm_duplicate_entry); RUN_TEST (test_rm_common_prefix); RUN_TEST (test_rm_common_prefix_entry); RUN_TEST (test_rm_null_entry); RUN_TEST (test_check_empty); RUN_TEST (test_check_added_entry); RUN_TEST (test_check_common_prefix); RUN_TEST (test_check_prefix); RUN_TEST (test_check_nonexistent_entry); RUN_TEST (test_check_query_longer_than_entry); RUN_TEST (test_check_null_entry_added); RUN_TEST (test_size); RUN_TEST (test_apply); return UNITY_END (); }