void
test_at(void)
{
uint16_t element_size;
for (element_size = 1; element_size < 16; element_size++) {
test_basic_operations(element_size, 0);
}
}
void
test_use_malloc(void)
{
uint16_t element_size;
for (element_size = 1; element_size < 16; element_size++) {
test_basic_operations(element_size, GRN_TINY_ARRAY_USE_MALLOC);
}
}
void
test_threadsafe(void)
{
/* TODO: A multi-threaded test should be done. */
uint16_t element_size;
for (element_size = 1; element_size < 16; element_size++) {
test_basic_operations(element_size, GRN_TINY_ARRAY_THREADSAFE);
}
}
int main() {
test_basic_operations();
test_set_and_get_for_all_data_types();
test_contains_and_find_one_for_all_data_types();
test_internal_type_conversion();
test_contains();
test_find_one();
return 0;
}
int main(int argc, char *argv[])
{
printf("** Basic operations **\n");
test_basic_operations();
printf("Verified OK!\n\n");
printf("** Stress test **\n");
stress_test();
printf("Verified OK!\n\n");
return 0;
}
void
test_clear(void)
{
grn_id id;
grn_tiny_array array;
grn_tiny_array_init(&ctx, &array, sizeof(int), GRN_TINY_ARRAY_CLEAR);
for (id = 1; id < (1 << 10); id++) {
const int expected_value = 0;
const int * const value_ptr = (const int *)grn_tiny_array_at(&array, id);
cut_assert_not_null(value_ptr);
cut_assert_equal_memory(&expected_value, sizeof(expected_value),
value_ptr, sizeof(int));
}
grn_tiny_array_fin(&array);
{
uint16_t element_size;
for (element_size = 1; element_size < 16; element_size++) {
test_basic_operations(element_size, GRN_TINY_ARRAY_CLEAR);
}
}
}
/*
This program tests the IOQueue.
*/
int main(int argc, const char* argv[])
{
test_basic_operations();
test_thread_safety();
return EXIT_SUCCESS;
}
void test_basic_operations() {
test_basic_operations(grnxx::Bool(true));
test_basic_operations(grnxx::Int(123));
test_basic_operations(grnxx::Float(1.25));
test_basic_operations(grnxx::GeoPoint(grnxx::Int(123), grnxx::Int(456)));
test_basic_operations(
grnxx::GeoPoint(grnxx::Float(35.681382), grnxx::Float(-139.766084)));
test_basic_operations(grnxx::Text("ABC"));
grnxx::Bool bool_values[] = {
grnxx::Bool(true),
grnxx::Bool(false),
grnxx::Bool(true)
};
grnxx::BoolVector bool_vector(bool_values, 3);
test_basic_operations(bool_vector);
grnxx::Int int_values[] = {
grnxx::Int(123),
grnxx::Int(-456),
grnxx::Int(789)
};
grnxx::IntVector int_vector(int_values, 3);
test_basic_operations(int_vector);
grnxx::Float float_values[] = {
grnxx::Float(1.23),
grnxx::Float(-4.56),
grnxx::Float(7.89)
};
grnxx::FloatVector float_vector(float_values, 3);
test_basic_operations(float_vector);
grnxx::GeoPoint geo_point_values[] = {
{ grnxx::Float(43.068661), grnxx::Float(141.350755) }, // Sapporo.
{ grnxx::Float(35.681382), grnxx::Float(139.766084) }, // Tokyo.
{ grnxx::Float(34.702485), grnxx::Float(135.495951) }, // Osaka.
};
grnxx::GeoPointVector geo_point_vector(geo_point_values, 3);
test_basic_operations(geo_point_vector);
grnxx::Text text_values[] = {
grnxx::Text("abc"),
grnxx::Text("DEF"),
grnxx::Text("ghi")
};
grnxx::TextVector text_vector(text_values, 3);
test_basic_operations(text_vector);
}
