#include "lix/libutil/pool.hh" #include namespace nix { struct TestResource { TestResource() { static int counter = 0; num = counter++; } int dummyValue = 1; bool good = true; int num; }; /* ---------------------------------------------------------------------------- * Pool * --------------------------------------------------------------------------*/ TEST(Pool, freshPoolHasZeroCountAndSpecifiedCapacity) { auto isGood = [](const ref & r) { return r->good; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); ASSERT_EQ(pool.count(), 0); ASSERT_EQ(pool.capacity(), 1); } TEST(Pool, freshPoolCanGetAResource) { auto isGood = [](const ref & r) { return r->good; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); ASSERT_EQ(pool.count(), 0); TestResource r = *(pool.get()); ASSERT_EQ(pool.count(), 1); ASSERT_EQ(pool.capacity(), 1); ASSERT_EQ(r.dummyValue, 1); ASSERT_EQ(r.good, true); } TEST(Pool, capacityCanBeIncremented) { auto isGood = [](const ref & r) { return r->good; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); ASSERT_EQ(pool.capacity(), 1); pool.incCapacity(); ASSERT_EQ(pool.capacity(), 2); } TEST(Pool, capacityCanBeDecremented) { auto isGood = [](const ref & r) { return r->good; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); ASSERT_EQ(pool.capacity(), 1); pool.decCapacity(); ASSERT_EQ(pool.capacity(), 0); } // Test that the resources we allocate are being reused when they are still good. TEST(Pool, reuseResource) { auto isGood = [](const ref & r) { return true; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); // Compare the instance counter between the two handles. We expect them to be equal // as the pool should hand out the same (still) good one again. int counter = -1; { Pool::Handle h = pool.get(); counter = h->num; } // the first handle goes out of scope { // the second handle should contain the same resource (with the same counter value) Pool::Handle h = pool.get(); ASSERT_EQ(h->num, counter); } } // Test that the resources we allocate are being thrown away when they are no longer good. TEST(Pool, badResourceIsNotReused) { auto isGood = [](const ref & r) { return false; }; auto createResource = []() { return make_ref(); }; Pool pool = Pool((size_t)1, createResource, isGood); // Compare the instance counter between the two handles. We expect them // to *not* be equal as the pool should hand out a new instance after // the first one was returned. int counter = -1; { Pool::Handle h = pool.get(); counter = h->num; } // the first handle goes out of scope { // the second handle should contain a different resource (with a //different counter value) Pool::Handle h = pool.get(); ASSERT_NE(h->num, counter); } } }