// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. /** * A test harness for the Redis API built on rocksdb. * * USAGE: Build with: "make redis_test" (in rocksdb directory). * Run unit tests with: "./redis_test" * Manual/Interactive user testing: "./redis_test -m" * Manual user testing + restart database: "./redis_test -m -d" * * TODO: Add LARGE random test cases to verify efficiency and scalability * * @author Deon Nicholas (dnicholas@fb.com) */ #ifndef ROCKSDB_LITE #include #include #include "redis_lists.h" #include "util/testharness.h" #include "util/random.h" using namespace rocksdb; using namespace std; namespace rocksdb { class RedisListsTest : public testing::Test { public: static const string kDefaultDbName; static Options options; RedisListsTest() { options.create_if_missing = true; } }; const string RedisListsTest::kDefaultDbName = "/tmp/redisdefaultdb/"; Options RedisListsTest::options = Options(); // operator== and operator<< are defined below for vectors (lists) // Needed for ASSERT_EQ namespace { void AssertListEq(const std::vector& result, const std::vector& expected_result) { ASSERT_EQ(result.size(), expected_result.size()); for (size_t i = 0; i < result.size(); ++i) { ASSERT_EQ(result[i], expected_result[i]); } } } // namespace // PushRight, Length, Index, Range TEST_F(RedisListsTest, SimpleTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // Simple PushRight (should return the new length each time) ASSERT_EQ(redis.PushRight("k1", "v1"), 1); ASSERT_EQ(redis.PushRight("k1", "v2"), 2); ASSERT_EQ(redis.PushRight("k1", "v3"), 3); // Check Length and Index() functions ASSERT_EQ(redis.Length("k1"), 3); // Check length ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "v1"); // Check valid indices ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "v2"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "v3"); // Check range function and vectors std::vector result = redis.Range("k1", 0, 2); // Get the list std::vector expected_result(3); expected_result[0] = "v1"; expected_result[1] = "v2"; expected_result[2] = "v3"; AssertListEq(result, expected_result); } // PushLeft, Length, Index, Range TEST_F(RedisListsTest, SimpleTest2) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // Simple PushRight ASSERT_EQ(redis.PushLeft("k1", "v3"), 1); ASSERT_EQ(redis.PushLeft("k1", "v2"), 2); ASSERT_EQ(redis.PushLeft("k1", "v1"), 3); // Check Length and Index() functions ASSERT_EQ(redis.Length("k1"), 3); // Check length ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "v1"); // Check valid indices ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "v2"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "v3"); // Check range function and vectors std::vector result = redis.Range("k1", 0, 2); // Get the list std::vector expected_result(3); expected_result[0] = "v1"; expected_result[1] = "v2"; expected_result[2] = "v3"; AssertListEq(result, expected_result); } // Exhaustive test of the Index() function TEST_F(RedisListsTest, IndexTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // Empty Index check (return empty and should not crash or edit tempv) tempv = "yo"; ASSERT_TRUE(!redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "yo"); ASSERT_TRUE(!redis.Index("fda", 3, &tempv)); ASSERT_EQ(tempv, "yo"); ASSERT_TRUE(!redis.Index("random", -12391, &tempv)); ASSERT_EQ(tempv, "yo"); // Simple Pushes (will yield: [v6, v4, v4, v1, v2, v3] redis.PushRight("k1", "v1"); redis.PushRight("k1", "v2"); redis.PushRight("k1", "v3"); redis.PushLeft("k1", "v4"); redis.PushLeft("k1", "v4"); redis.PushLeft("k1", "v6"); // Simple, non-negative indices ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "v6"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "v4"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "v4"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "v1"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "v2"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "v3"); // Negative indices ASSERT_TRUE(redis.Index("k1", -6, &tempv)); ASSERT_EQ(tempv, "v6"); ASSERT_TRUE(redis.Index("k1", -5, &tempv)); ASSERT_EQ(tempv, "v4"); ASSERT_TRUE(redis.Index("k1", -4, &tempv)); ASSERT_EQ(tempv, "v4"); ASSERT_TRUE(redis.Index("k1", -3, &tempv)); ASSERT_EQ(tempv, "v1"); ASSERT_TRUE(redis.Index("k1", -2, &tempv)); ASSERT_EQ(tempv, "v2"); ASSERT_TRUE(redis.Index("k1", -1, &tempv)); ASSERT_EQ(tempv, "v3"); // Out of bounds (return empty, no crash) ASSERT_TRUE(!redis.Index("k1", 6, &tempv)); ASSERT_TRUE(!redis.Index("k1", 123219, &tempv)); ASSERT_TRUE(!redis.Index("k1", -7, &tempv)); ASSERT_TRUE(!redis.Index("k1", -129, &tempv)); } // Exhaustive test of the Range() function TEST_F(RedisListsTest, RangeTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // Simple Pushes (will yield: [v6, v4, v4, v1, v2, v3]) redis.PushRight("k1", "v1"); redis.PushRight("k1", "v2"); redis.PushRight("k1", "v3"); redis.PushLeft("k1", "v4"); redis.PushLeft("k1", "v4"); redis.PushLeft("k1", "v6"); // Sanity check (check the length; make sure it's 6) ASSERT_EQ(redis.Length("k1"), 6); // Simple range std::vector res = redis.Range("k1", 1, 4); ASSERT_EQ((int)res.size(), 4); ASSERT_EQ(res[0], "v4"); ASSERT_EQ(res[1], "v4"); ASSERT_EQ(res[2], "v1"); ASSERT_EQ(res[3], "v2"); // Negative indices (i.e.: measured from the end) res = redis.Range("k1", 2, -1); ASSERT_EQ((int)res.size(), 4); ASSERT_EQ(res[0], "v4"); ASSERT_EQ(res[1], "v1"); ASSERT_EQ(res[2], "v2"); ASSERT_EQ(res[3], "v3"); res = redis.Range("k1", -6, -4); ASSERT_EQ((int)res.size(), 3); ASSERT_EQ(res[0], "v6"); ASSERT_EQ(res[1], "v4"); ASSERT_EQ(res[2], "v4"); res = redis.Range("k1", -1, 5); ASSERT_EQ((int)res.size(), 1); ASSERT_EQ(res[0], "v3"); // Partial / Broken indices res = redis.Range("k1", -3, 1000000); ASSERT_EQ((int)res.size(), 3); ASSERT_EQ(res[0], "v1"); ASSERT_EQ(res[1], "v2"); ASSERT_EQ(res[2], "v3"); res = redis.Range("k1", -1000000, 1); ASSERT_EQ((int)res.size(), 2); ASSERT_EQ(res[0], "v6"); ASSERT_EQ(res[1], "v4"); // Invalid indices res = redis.Range("k1", 7, 9); ASSERT_EQ((int)res.size(), 0); res = redis.Range("k1", -8, -7); ASSERT_EQ((int)res.size(), 0); res = redis.Range("k1", 3, 2); ASSERT_EQ((int)res.size(), 0); res = redis.Range("k1", 5, -2); ASSERT_EQ((int)res.size(), 0); // Range matches Index res = redis.Range("k1", -6, -4); ASSERT_TRUE(redis.Index("k1", -6, &tempv)); ASSERT_EQ(tempv, res[0]); ASSERT_TRUE(redis.Index("k1", -5, &tempv)); ASSERT_EQ(tempv, res[1]); ASSERT_TRUE(redis.Index("k1", -4, &tempv)); ASSERT_EQ(tempv, res[2]); // Last check res = redis.Range("k1", 0, -6); ASSERT_EQ((int)res.size(), 1); ASSERT_EQ(res[0], "v6"); } // Exhaustive test for InsertBefore(), and InsertAfter() TEST_F(RedisListsTest, InsertTest) { RedisLists redis(kDefaultDbName, options, true); string tempv; // Used below for all Index(), PopRight(), PopLeft() // Insert on empty list (return 0, and do not crash) ASSERT_EQ(redis.InsertBefore("k1", "non-exist", "a"), 0); ASSERT_EQ(redis.InsertAfter("k1", "other-non-exist", "c"), 0); ASSERT_EQ(redis.Length("k1"), 0); // Push some preliminary stuff [g, f, e, d, c, b, a] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "b"); redis.PushLeft("k1", "c"); redis.PushLeft("k1", "d"); redis.PushLeft("k1", "e"); redis.PushLeft("k1", "f"); redis.PushLeft("k1", "g"); ASSERT_EQ(redis.Length("k1"), 7); // Test InsertBefore int newLength = redis.InsertBefore("k1", "e", "hello"); ASSERT_EQ(newLength, 8); ASSERT_EQ(redis.Length("k1"), newLength); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "f"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "e"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "hello"); // Test InsertAfter newLength = redis.InsertAfter("k1", "c", "bye"); ASSERT_EQ(newLength, 9); ASSERT_EQ(redis.Length("k1"), newLength); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "bye"); // Test bad value on InsertBefore newLength = redis.InsertBefore("k1", "yo", "x"); ASSERT_EQ(newLength, 9); ASSERT_EQ(redis.Length("k1"), newLength); // Test bad value on InsertAfter newLength = redis.InsertAfter("k1", "xxxx", "y"); ASSERT_EQ(newLength, 9); ASSERT_EQ(redis.Length("k1"), newLength); // Test InsertBefore beginning newLength = redis.InsertBefore("k1", "g", "begggggggggggggggg"); ASSERT_EQ(newLength, 10); ASSERT_EQ(redis.Length("k1"), newLength); // Test InsertAfter end newLength = redis.InsertAfter("k1", "a", "enddd"); ASSERT_EQ(newLength, 11); ASSERT_EQ(redis.Length("k1"), newLength); // Make sure nothing weird happened. ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "begggggggggggggggg"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "g"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "f"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "hello"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "e"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "d"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "c"); ASSERT_TRUE(redis.Index("k1", 7, &tempv)); ASSERT_EQ(tempv, "bye"); ASSERT_TRUE(redis.Index("k1", 8, &tempv)); ASSERT_EQ(tempv, "b"); ASSERT_TRUE(redis.Index("k1", 9, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_TRUE(redis.Index("k1", 10, &tempv)); ASSERT_EQ(tempv, "enddd"); } // Exhaustive test of Set function TEST_F(RedisListsTest, SetTest) { RedisLists redis(kDefaultDbName, options, true); string tempv; // Used below for all Index(), PopRight(), PopLeft() // Set on empty list (return false, and do not crash) ASSERT_EQ(redis.Set("k1", 7, "a"), false); ASSERT_EQ(redis.Set("k1", 0, "a"), false); ASSERT_EQ(redis.Set("k1", -49, "cx"), false); ASSERT_EQ(redis.Length("k1"), 0); // Push some preliminary stuff [g, f, e, d, c, b, a] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "b"); redis.PushLeft("k1", "c"); redis.PushLeft("k1", "d"); redis.PushLeft("k1", "e"); redis.PushLeft("k1", "f"); redis.PushLeft("k1", "g"); ASSERT_EQ(redis.Length("k1"), 7); // Test Regular Set ASSERT_TRUE(redis.Set("k1", 0, "0")); ASSERT_TRUE(redis.Set("k1", 3, "3")); ASSERT_TRUE(redis.Set("k1", 6, "6")); ASSERT_TRUE(redis.Set("k1", 2, "2")); ASSERT_TRUE(redis.Set("k1", 5, "5")); ASSERT_TRUE(redis.Set("k1", 1, "1")); ASSERT_TRUE(redis.Set("k1", 4, "4")); ASSERT_EQ(redis.Length("k1"), 7); // Size should not change ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "0"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "1"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "2"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "3"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "4"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "5"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "6"); // Set with negative indices ASSERT_TRUE(redis.Set("k1", -7, "a")); ASSERT_TRUE(redis.Set("k1", -4, "d")); ASSERT_TRUE(redis.Set("k1", -1, "g")); ASSERT_TRUE(redis.Set("k1", -5, "c")); ASSERT_TRUE(redis.Set("k1", -2, "f")); ASSERT_TRUE(redis.Set("k1", -6, "b")); ASSERT_TRUE(redis.Set("k1", -3, "e")); ASSERT_EQ(redis.Length("k1"), 7); // Size should not change ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "b"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "c"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "d"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "e"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "f"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "g"); // Bad indices (just out-of-bounds / off-by-one check) ASSERT_EQ(redis.Set("k1", -8, "off-by-one in negative index"), false); ASSERT_EQ(redis.Set("k1", 7, "off-by-one-error in positive index"), false); ASSERT_EQ(redis.Set("k1", 43892, "big random index should fail"), false); ASSERT_EQ(redis.Set("k1", -21391, "large negative index should fail"), false); // One last check (to make sure nothing weird happened) ASSERT_EQ(redis.Length("k1"), 7); // Size should not change ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "b"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "c"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "d"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "e"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "f"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "g"); } // Testing Insert, Push, and Set, in a mixed environment TEST_F(RedisListsTest, InsertPushSetTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // A series of pushes and insertions // Will result in [newbegin, z, a, aftera, x, newend] // Also, check the return value sometimes (should return length) int lengthCheck; lengthCheck = redis.PushLeft("k1", "a"); ASSERT_EQ(lengthCheck, 1); redis.PushLeft("k1", "z"); redis.PushRight("k1", "x"); lengthCheck = redis.InsertAfter("k1", "a", "aftera"); ASSERT_EQ(lengthCheck , 4); redis.InsertBefore("k1", "z", "newbegin"); // InsertBefore beginning of list redis.InsertAfter("k1", "x", "newend"); // InsertAfter end of list // Check std::vector res = redis.Range("k1", 0, -1); // Get the list ASSERT_EQ((int)res.size(), 6); ASSERT_EQ(res[0], "newbegin"); ASSERT_EQ(res[5], "newend"); ASSERT_EQ(res[3], "aftera"); // Testing duplicate values/pivots (multiple occurrences of 'a') ASSERT_TRUE(redis.Set("k1", 0, "a")); // [a, z, a, aftera, x, newend] redis.InsertAfter("k1", "a", "happy"); // [a, happy, z, a, aftera, ...] ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "happy"); redis.InsertBefore("k1", "a", "sad"); // [sad, a, happy, z, a, aftera, ...] ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "sad"); ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "happy"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "aftera"); redis.InsertAfter("k1", "a", "zz"); // [sad, a, zz, happy, z, a, aftera, ...] ASSERT_TRUE(redis.Index("k1", 2, &tempv)); ASSERT_EQ(tempv, "zz"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "aftera"); ASSERT_TRUE(redis.Set("k1", 1, "nota")); // [sad, nota, zz, happy, z, a, ...] redis.InsertBefore("k1", "a", "ba"); // [sad, nota, zz, happy, z, ba, a, ...] ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "ba"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "a"); // We currently have: [sad, nota, zz, happy, z, ba, a, aftera, x, newend] // redis.Print("k1"); // manually check // Test Inserting before/after non-existent values lengthCheck = redis.Length("k1"); // Ensure that the length doesn't change ASSERT_EQ(lengthCheck, 10); ASSERT_EQ(redis.InsertBefore("k1", "non-exist", "randval"), lengthCheck); ASSERT_EQ(redis.InsertAfter("k1", "nothing", "a"), lengthCheck); ASSERT_EQ(redis.InsertAfter("randKey", "randVal", "ranValue"), 0); // Empty ASSERT_EQ(redis.Length("k1"), lengthCheck); // The length should not change // Simply Test the Set() function redis.Set("k1", 5, "ba2"); redis.InsertBefore("k1", "ba2", "beforeba2"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "beforeba2"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "ba2"); ASSERT_TRUE(redis.Index("k1", 7, &tempv)); ASSERT_EQ(tempv, "a"); // We have: [sad, nota, zz, happy, z, beforeba2, ba2, a, aftera, x, newend] // Set() with negative indices redis.Set("k1", -1, "endprank"); ASSERT_TRUE(!redis.Index("k1", 11, &tempv)); ASSERT_TRUE(redis.Index("k1", 10, &tempv)); ASSERT_EQ(tempv, "endprank"); // Ensure Set worked correctly redis.Set("k1", -11, "t"); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "t"); // Test out of bounds Set ASSERT_EQ(redis.Set("k1", -12, "ssd"), false); ASSERT_EQ(redis.Set("k1", 11, "sasd"), false); ASSERT_EQ(redis.Set("k1", 1200, "big"), false); } // Testing Trim, Pop TEST_F(RedisListsTest, TrimPopTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // A series of pushes and insertions // Will result in [newbegin, z, a, aftera, x, newend] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "z"); redis.PushRight("k1", "x"); redis.InsertBefore("k1", "z", "newbegin"); // InsertBefore start of list redis.InsertAfter("k1", "x", "newend"); // InsertAfter end of list redis.InsertAfter("k1", "a", "aftera"); // Simple PopLeft/Right test ASSERT_TRUE(redis.PopLeft("k1", &tempv)); ASSERT_EQ(tempv, "newbegin"); ASSERT_EQ(redis.Length("k1"), 5); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.PopRight("k1", &tempv)); ASSERT_EQ(tempv, "newend"); ASSERT_EQ(redis.Length("k1"), 4); ASSERT_TRUE(redis.Index("k1", -1, &tempv)); ASSERT_EQ(tempv, "x"); // Now have: [z, a, aftera, x] // Test Trim ASSERT_TRUE(redis.Trim("k1", 0, -1)); // [z, a, aftera, x] (do nothing) ASSERT_EQ(redis.Length("k1"), 4); ASSERT_TRUE(redis.Trim("k1", 0, 2)); // [z, a, aftera] ASSERT_EQ(redis.Length("k1"), 3); ASSERT_TRUE(redis.Index("k1", -1, &tempv)); ASSERT_EQ(tempv, "aftera"); ASSERT_TRUE(redis.Trim("k1", 1, 1)); // [a] ASSERT_EQ(redis.Length("k1"), 1); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "a"); // Test out of bounds (empty) trim ASSERT_TRUE(redis.Trim("k1", 1, 0)); ASSERT_EQ(redis.Length("k1"), 0); // Popping with empty list (return empty without error) ASSERT_TRUE(!redis.PopLeft("k1", &tempv)); ASSERT_TRUE(!redis.PopRight("k1", &tempv)); ASSERT_TRUE(redis.Trim("k1", 0, 5)); // Exhaustive Trim test (negative and invalid indices) // Will start in [newbegin, z, a, aftera, x, newend] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "z"); redis.PushRight("k1", "x"); redis.InsertBefore("k1", "z", "newbegin"); // InsertBefore start of list redis.InsertAfter("k1", "x", "newend"); // InsertAfter end of list redis.InsertAfter("k1", "a", "aftera"); ASSERT_TRUE(redis.Trim("k1", -6, -1)); // Should do nothing ASSERT_EQ(redis.Length("k1"), 6); ASSERT_TRUE(redis.Trim("k1", 1, -2)); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "x"); ASSERT_EQ(redis.Length("k1"), 4); ASSERT_TRUE(redis.Trim("k1", -3, -2)); ASSERT_EQ(redis.Length("k1"), 2); } // Testing Remove, RemoveFirst, RemoveLast TEST_F(RedisListsTest, RemoveTest) { RedisLists redis(kDefaultDbName, options, true); // Destructive string tempv; // Used below for all Index(), PopRight(), PopLeft() // A series of pushes and insertions // Will result in [newbegin, z, a, aftera, x, newend, a, a] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "z"); redis.PushRight("k1", "x"); redis.InsertBefore("k1", "z", "newbegin"); // InsertBefore start of list redis.InsertAfter("k1", "x", "newend"); // InsertAfter end of list redis.InsertAfter("k1", "a", "aftera"); redis.PushRight("k1", "a"); redis.PushRight("k1", "a"); // Verify ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "newbegin"); ASSERT_TRUE(redis.Index("k1", -1, &tempv)); ASSERT_EQ(tempv, "a"); // Check RemoveFirst (Remove the first two 'a') // Results in [newbegin, z, aftera, x, newend, a] int numRemoved = redis.Remove("k1", 2, "a"); ASSERT_EQ(numRemoved, 2); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "newbegin"); ASSERT_TRUE(redis.Index("k1", 1, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "newend"); ASSERT_TRUE(redis.Index("k1", 5, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_EQ(redis.Length("k1"), 6); // Repopulate some stuff // Results in: [x, x, x, x, x, newbegin, z, x, aftera, x, newend, a, x] redis.PushLeft("k1", "x"); redis.PushLeft("k1", "x"); redis.PushLeft("k1", "x"); redis.PushLeft("k1", "x"); redis.PushLeft("k1", "x"); redis.PushRight("k1", "x"); redis.InsertAfter("k1", "z", "x"); // Test removal from end numRemoved = redis.Remove("k1", -2, "x"); ASSERT_EQ(numRemoved, 2); ASSERT_TRUE(redis.Index("k1", 8, &tempv)); ASSERT_EQ(tempv, "aftera"); ASSERT_TRUE(redis.Index("k1", 9, &tempv)); ASSERT_EQ(tempv, "newend"); ASSERT_TRUE(redis.Index("k1", 10, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_TRUE(!redis.Index("k1", 11, &tempv)); numRemoved = redis.Remove("k1", -2, "x"); ASSERT_EQ(numRemoved, 2); ASSERT_TRUE(redis.Index("k1", 4, &tempv)); ASSERT_EQ(tempv, "newbegin"); ASSERT_TRUE(redis.Index("k1", 6, &tempv)); ASSERT_EQ(tempv, "aftera"); // We now have: [x, x, x, x, newbegin, z, aftera, newend, a] ASSERT_EQ(redis.Length("k1"), 9); ASSERT_TRUE(redis.Index("k1", -1, &tempv)); ASSERT_EQ(tempv, "a"); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "x"); // Test over-shooting (removing more than there exists) numRemoved = redis.Remove("k1", -9000, "x"); ASSERT_EQ(numRemoved , 4); // Only really removed 4 ASSERT_EQ(redis.Length("k1"), 5); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "newbegin"); numRemoved = redis.Remove("k1", 1, "x"); ASSERT_EQ(numRemoved, 0); // Try removing ALL! numRemoved = redis.Remove("k1", 0, "newbegin"); // REMOVE 0 will remove all! ASSERT_EQ(numRemoved, 1); // Removal from an empty-list ASSERT_TRUE(redis.Trim("k1", 1, 0)); numRemoved = redis.Remove("k1", 1, "z"); ASSERT_EQ(numRemoved, 0); } // Test Multiple keys and Persistence TEST_F(RedisListsTest, PersistenceMultiKeyTest) { string tempv; // Used below for all Index(), PopRight(), PopLeft() // Block one: populate a single key in the database { RedisLists redis(kDefaultDbName, options, true); // Destructive // A series of pushes and insertions // Will result in [newbegin, z, a, aftera, x, newend, a, a] redis.PushLeft("k1", "a"); redis.PushLeft("k1", "z"); redis.PushRight("k1", "x"); redis.InsertBefore("k1", "z", "newbegin"); // InsertBefore start of list redis.InsertAfter("k1", "x", "newend"); // InsertAfter end of list redis.InsertAfter("k1", "a", "aftera"); redis.PushRight("k1", "a"); redis.PushRight("k1", "a"); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "aftera"); } // Block two: make sure changes were saved and add some other key { RedisLists redis(kDefaultDbName, options, false); // Persistent, non-destructive // Check ASSERT_EQ(redis.Length("k1"), 8); ASSERT_TRUE(redis.Index("k1", 3, &tempv)); ASSERT_EQ(tempv, "aftera"); redis.PushRight("k2", "randomkey"); redis.PushLeft("k2", "sas"); redis.PopLeft("k1", &tempv); } // Block three: Verify the changes from block 2 { RedisLists redis(kDefaultDbName, options, false); // Persistent, non-destructive // Check ASSERT_EQ(redis.Length("k1"), 7); ASSERT_EQ(redis.Length("k2"), 2); ASSERT_TRUE(redis.Index("k1", 0, &tempv)); ASSERT_EQ(tempv, "z"); ASSERT_TRUE(redis.Index("k2", -2, &tempv)); ASSERT_EQ(tempv, "sas"); } } /// THE manual REDIS TEST begins here /// THIS WILL ONLY OCCUR IF YOU RUN: ./redis_test -m namespace { void MakeUpper(std::string* const s) { int len = static_cast(s->length()); for (int i = 0; i < len; ++i) { (*s)[i] = toupper((*s)[i]); // C-version defined in } } /// Allows the user to enter in REDIS commands into the command-line. /// This is useful for manual / interacticve testing / debugging. /// Use destructive=true to clean the database before use. /// Use destructive=false to remember the previous state (i.e.: persistent) /// Should be called from main function. int manual_redis_test(bool destructive){ RedisLists redis(RedisListsTest::kDefaultDbName, RedisListsTest::options, destructive); // TODO: Right now, please use spaces to separate each word. // In actual redis, you can use quotes to specify compound values // Example: RPUSH mylist "this is a compound value" std::string command; while(true) { cin >> command; MakeUpper(&command); if (command == "LINSERT") { std::string k, t, p, v; cin >> k >> t >> p >> v; MakeUpper(&t); if (t=="BEFORE") { std::cout << redis.InsertBefore(k, p, v) << std::endl; } else if (t=="AFTER") { std::cout << redis.InsertAfter(k, p, v) << std::endl; } } else if (command == "LPUSH") { std::string k, v; std::cin >> k >> v; redis.PushLeft(k, v); } else if (command == "RPUSH") { std::string k, v; std::cin >> k >> v; redis.PushRight(k, v); } else if (command == "LPOP") { std::string k; std::cin >> k; string res; redis.PopLeft(k, &res); std::cout << res << std::endl; } else if (command == "RPOP") { std::string k; std::cin >> k; string res; redis.PopRight(k, &res); std::cout << res << std::endl; } else if (command == "LREM") { std::string k; int amt; std::string v; std::cin >> k >> amt >> v; std::cout << redis.Remove(k, amt, v) << std::endl; } else if (command == "LLEN") { std::string k; std::cin >> k; std::cout << redis.Length(k) << std::endl; } else if (command == "LRANGE") { std::string k; int i, j; std::cin >> k >> i >> j; std::vector res = redis.Range(k, i, j); for (auto it = res.begin(); it != res.end(); ++it) { std::cout << " " << (*it); } std::cout << std::endl; } else if (command == "LTRIM") { std::string k; int i, j; std::cin >> k >> i >> j; redis.Trim(k, i, j); } else if (command == "LSET") { std::string k; int idx; std::string v; cin >> k >> idx >> v; redis.Set(k, idx, v); } else if (command == "LINDEX") { std::string k; int idx; std::cin >> k >> idx; string res; redis.Index(k, idx, &res); std::cout << res << std::endl; } else if (command == "PRINT") { // Added by Deon std::string k; cin >> k; redis.Print(k); } else if (command == "QUIT") { return 0; } else { std::cout << "unknown command: " << command << std::endl; } } } } // namespace } // namespace rocksdb // USAGE: "./redis_test" for default (unit tests) // "./redis_test -m" for manual testing (redis command api) // "./redis_test -m -d" for destructive manual test (erase db before use) namespace { // Check for "want" argument in the argument list bool found_arg(int argc, char* argv[], const char* want){ for(int i=1; i int main(int argc, char* argv[]) { fprintf(stderr, "SKIPPED as redis is not supported in ROCKSDB_LITE\n"); return 0; } #endif // !ROCKSDB_LITE