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/* SPDX-License-Identifier: MPL-2.0 */
#include "../tests/testutil.hpp"
#if defined(min)
#undef min
#endif
#include <generic_mtrie_impl.hpp>
#include <unity.h>
void setUp ()
{
}
void tearDown ()
{
}
int getlen (const zmq::generic_mtrie_t<int>::prefix_t &data_)
{
return static_cast<int> (strlen (reinterpret_cast<const char *> (data_)));
}
void test_create ()
{
zmq::generic_mtrie_t<int> mtrie;
}
void mtrie_count (int *pipe_, int *count_)
{
LIBZMQ_UNUSED (pipe_);
++*count_;
}
void test_check_empty_match_nonempty_data ()
{
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (0, count);
}
void test_check_empty_match_empty_data ()
{
zmq::generic_mtrie_t<int> mtrie;
int count = 0;
mtrie.match (NULL, 0, mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (0, count);
}
void test_add_single_entry_match_exact ()
{
int pipe;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
bool res = mtrie.add (test_name, getlen (test_name), &pipe);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (1, count);
}
void test_add_single_entry_twice_match_exact ()
{
int pipe;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
bool res = mtrie.add (test_name, getlen (test_name), &pipe);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
res = mtrie.add (test_name, getlen (test_name), &pipe);
TEST_ASSERT_FALSE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (1, count);
}
void test_add_two_entries_with_same_name_match_exact ()
{
int pipe_1, pipe_2;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
bool res = mtrie.add (test_name, getlen (test_name), &pipe_1);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
res = mtrie.add (test_name, getlen (test_name), &pipe_2);
TEST_ASSERT_FALSE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (2, count);
}
void test_add_two_entries_match_prefix_and_exact ()
{
int pipe_1, pipe_2;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name_prefix =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
const zmq::generic_mtrie_t<int>::prefix_t test_name_full =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foobar");
bool res = mtrie.add (test_name_prefix, getlen (test_name_prefix), &pipe_1);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
res = mtrie.add (test_name_full, getlen (test_name_full), &pipe_2);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name_full, getlen (test_name_full), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (2, count);
}
void test_add_rm_single_entry_match_exact ()
{
int pipe;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
mtrie.add (test_name, getlen (test_name), &pipe);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
zmq::generic_mtrie_t<int>::rm_result res =
mtrie.rm (test_name, getlen (test_name), &pipe);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::last_value_removed, res);
TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (0, count);
}
void test_rm_nonexistent_0_size_empty ()
{
int pipe;
zmq::generic_mtrie_t<int> mtrie;
zmq::generic_mtrie_t<int>::rm_result res = mtrie.rm (0, 0, &pipe);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::not_found, res);
TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ());
}
void test_rm_nonexistent_empty ()
{
int pipe;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t test_name =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> ("foo");
zmq::generic_mtrie_t<int>::rm_result res =
mtrie.rm (test_name, getlen (test_name), &pipe);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::not_found, res);
TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ());
int count = 0;
mtrie.match (test_name, getlen (test_name), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (0, count);
}
void test_add_and_rm_other (const char *add_name_, const char *rm_name_)
{
int addpipe, rmpipe;
zmq::generic_mtrie_t<int> mtrie;
const zmq::generic_mtrie_t<int>::prefix_t add_name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (add_name_);
const zmq::generic_mtrie_t<int>::prefix_t rm_name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (rm_name_);
mtrie.add (add_name_data, getlen (add_name_data), &addpipe);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
zmq::generic_mtrie_t<int>::rm_result res =
mtrie.rm (rm_name_data, getlen (rm_name_data), &rmpipe);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::not_found, res);
TEST_ASSERT_EQUAL_INT (1, mtrie.num_prefixes ());
{
int count = 0;
mtrie.match (add_name_data, getlen (add_name_data), mtrie_count,
&count);
TEST_ASSERT_EQUAL_INT (1, count);
}
if (strncmp (add_name_, rm_name_,
std::min (strlen (add_name_), strlen (rm_name_) + 1))
!= 0) {
int count = 0;
mtrie.match (rm_name_data, getlen (rm_name_data), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (0, count);
}
}
void test_rm_nonexistent_nonempty_samename ()
{
// TODO this triggers an assertion
test_add_and_rm_other ("foo", "foo");
}
void test_rm_nonexistent_nonempty_differentname ()
{
test_add_and_rm_other ("foo", "bar");
}
void test_rm_nonexistent_nonempty_prefix ()
{
// TODO here, a test assertion fails
test_add_and_rm_other ("foobar", "foo");
}
void test_rm_nonexistent_nonempty_prefixed ()
{
test_add_and_rm_other ("foo", "foobar");
}
void add_indexed_expect_unique (zmq::generic_mtrie_t<int> &mtrie_,
int *pipes_,
const char **names_,
size_t i_)
{
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (names_[i_]);
bool res = mtrie_.add (name_data, getlen (name_data), &pipes_[i_]);
TEST_ASSERT_EQUAL (
zmq::generic_mtrie_t<int>::last_value_removed,
res); // FIXME asserting equality between enum and bool? I think first arg for macro should be "true"
}
void test_rm_nonexistent_between ()
{
int pipes[3];
const char *names[] = {"foo1", "foo2", "foo3"};
zmq::generic_mtrie_t<int> mtrie;
add_indexed_expect_unique (mtrie, pipes, names, 0);
add_indexed_expect_unique (mtrie, pipes, names, 2);
TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ());
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (names[1]);
zmq::generic_mtrie_t<int>::rm_result res =
mtrie.rm (name_data, getlen (name_data), &pipes[1]);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::not_found, res);
TEST_ASSERT_EQUAL_INT (2, mtrie.num_prefixes ());
}
template <size_t N>
void add_entries (zmq::generic_mtrie_t<int> &mtrie_,
int (&pipes_)[N],
const char *(&names_)[N])
{
for (size_t i = 0; i < N; ++i) {
add_indexed_expect_unique (mtrie_, pipes_, names_, i);
}
TEST_ASSERT_EQUAL_INT (N, mtrie_.num_prefixes ());
}
void test_add_multiple ()
{
int pipes[3];
const char *names[] = {"foo1", "foo2", "foo3"};
zmq::generic_mtrie_t<int> mtrie;
add_entries (mtrie, pipes, names);
for (size_t i = 0; i < sizeof (names) / sizeof (names[0]); ++i) {
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (names[i]);
int count = 0;
mtrie.match (name_data, getlen (name_data), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (1, count);
}
}
void test_add_multiple_reverse ()
{
int pipes[3];
const char *names[] = {"foo1", "foo2", "foo3"};
zmq::generic_mtrie_t<int> mtrie;
for (int i = 2; i >= 0; --i) {
add_indexed_expect_unique (mtrie, pipes, names,
static_cast<size_t> (i));
}
TEST_ASSERT_EQUAL_INT (3, mtrie.num_prefixes ());
for (size_t i = 0; i < 3; ++i) {
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (names[i]);
int count = 0;
mtrie.match (name_data, getlen (name_data), mtrie_count, &count);
TEST_ASSERT_EQUAL_INT (1, count);
}
}
template <size_t N> void add_and_rm_entries (const char *(&names_)[N])
{
int pipes[N];
zmq::generic_mtrie_t<int> mtrie;
add_entries (mtrie, pipes, names_);
for (size_t i = 0; i < N; ++i) {
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (names_[i]);
zmq::generic_mtrie_t<int>::rm_result res =
mtrie.rm (name_data, getlen (name_data), &pipes[i]);
TEST_ASSERT_EQUAL (zmq::generic_mtrie_t<int>::last_value_removed, res);
}
TEST_ASSERT_EQUAL_INT (0, mtrie.num_prefixes ());
}
void test_rm_multiple_in_order ()
{
const char *names[] = {"foo1", "foo2", "foo3"};
add_and_rm_entries (names);
}
void test_rm_multiple_reverse_order ()
{
const char *names[] = {"foo3", "foo2", "foo1"};
add_and_rm_entries (names);
}
void check_name (zmq::generic_mtrie_t<int>::prefix_t data_,
size_t len_,
const char *name_)
{
TEST_ASSERT_EQUAL_UINT (strlen (name_), len_);
TEST_ASSERT_EQUAL_STRING_LEN (name_, data_, len_);
}
template <size_t N> void add_entries_rm_pipes_unique (const char *(&names_)[N])
{
int pipes[N];
zmq::generic_mtrie_t<int> mtrie;
add_entries (mtrie, pipes, names_);
for (size_t i = 0; i < N; ++i) {
mtrie.rm (&pipes[i], check_name, names_[i], false);
}
}
void test_rm_with_callback_multiple_in_order ()
{
const char *names[] = {"foo1", "foo2", "foo3"};
add_entries_rm_pipes_unique (names);
}
void test_rm_with_callback_multiple_reverse_order ()
{
const char *names[] = {"foo3", "foo2", "foo1"};
add_entries_rm_pipes_unique (names);
}
void check_count (zmq::generic_mtrie_t<int>::prefix_t data_,
size_t len_,
int *count_)
{
LIBZMQ_UNUSED (data_);
LIBZMQ_UNUSED (len_);
--(*count_);
TEST_ASSERT_GREATER_OR_EQUAL (0, *count_);
}
void add_duplicate_entry (zmq::generic_mtrie_t<int> &mtrie_, int (&pipes_)[2])
{
const char *name = "foo";
const zmq::generic_mtrie_t<int>::prefix_t name_data =
reinterpret_cast<zmq::generic_mtrie_t<int>::prefix_t> (name);
bool res = mtrie_.add (name_data, getlen (name_data), &pipes_[0]);
TEST_ASSERT_TRUE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie_.num_prefixes ());
res = mtrie_.add (name_data, getlen (name_data), &pipes_[1]);
TEST_ASSERT_FALSE (res);
TEST_ASSERT_EQUAL_INT (1, mtrie_.num_prefixes ());
}
void test_rm_with_callback_duplicate ()
{
int pipes[2];
zmq::generic_mtrie_t<int> mtrie;
add_duplicate_entry (mtrie, pipes);
int count = 1;
mtrie.rm (&pipes[0], check_count, &count, false);
count = 1;
mtrie.rm (&pipes[1], check_count, &count, false);
}
void test_rm_with_callback_duplicate_uniq_only ()
{
int pipes[2];
zmq::generic_mtrie_t<int> mtrie;
add_duplicate_entry (mtrie, pipes);
int count = 0;
mtrie.rm (&pipes[0], check_count, &count, true);
count = 1;
mtrie.rm (&pipes[1], check_count, &count, true);
}
int main (void)
{
setup_test_environment ();
UNITY_BEGIN ();
RUN_TEST (test_create);
RUN_TEST (test_check_empty_match_nonempty_data);
RUN_TEST (test_check_empty_match_empty_data);
RUN_TEST (test_add_single_entry_match_exact);
RUN_TEST (test_add_single_entry_twice_match_exact);
RUN_TEST (test_add_rm_single_entry_match_exact);
RUN_TEST (test_add_two_entries_match_prefix_and_exact);
RUN_TEST (test_add_two_entries_with_same_name_match_exact);
RUN_TEST (test_rm_nonexistent_0_size_empty);
RUN_TEST (test_rm_nonexistent_empty);
RUN_TEST (test_rm_nonexistent_nonempty_samename);
RUN_TEST (test_rm_nonexistent_nonempty_differentname);
RUN_TEST (test_rm_nonexistent_nonempty_prefix);
RUN_TEST (test_rm_nonexistent_nonempty_prefixed);
RUN_TEST (test_rm_nonexistent_between);
RUN_TEST (test_add_multiple);
RUN_TEST (test_add_multiple_reverse);
RUN_TEST (test_rm_multiple_in_order);
RUN_TEST (test_rm_multiple_reverse_order);
RUN_TEST (test_rm_with_callback_multiple_in_order);
RUN_TEST (test_rm_with_callback_multiple_reverse_order);
RUN_TEST (test_rm_with_callback_duplicate);
RUN_TEST (test_rm_with_callback_duplicate_uniq_only);
return UNITY_END ();
}
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