Exemplo n.º 1
0
        //~ func TestDelete(t *testing.T) {
        public void TestDelete()
        {
            //~ r := New()
            var r = new RadixTree <int>();

            //~ s := []string{"", "A", "AB"}
            var s = new string[] { "", "A", "AB" };

            //~ for _, ss := range s {
            //~     r.Insert(ss, true)
            //~ }
            foreach (var ss in s)
            {
                r.GoInsert(ss, 1);
            }

            //~ for _, ss := range s {
            //~     _, ok := r.Delete(ss)
            //~     if !ok {
            //~         t.Fatalf("bad %q", ss)
            //~     }
            //~ }
            foreach (var ss in s)
            {
                var(_, ok) = r.GoDelete(ss);
                Assert.IsTrue(ok, "Removed key");
            }
        }
Exemplo n.º 2
0
        //~ func TestLongestPrefix(t *testing.T) {
        public void TestLongestPrefix()
        {
            //~ r := New()
            var r = new RadixTree <int>();

            //~ keys := []string{
            //~     "",
            //~     "foo",
            //~     "foobar",
            //~     "foobarbaz",
            //~     "foobarbazzip",
            //~     "foozip",
            //~ }
            var keys = new string[] {
                "",
                "foo",
                "foobar",
                "foobarbaz",
                "foobarbazzip",
                "foozip",
            };

            //~ for _, k := range keys {
            //~     r.Insert(k, nil)
            //~ }
            //~ if r.Len() != len(keys) {
            //~     t.Fatalf("bad len: %v %v", r.Len(), len(keys))
            //~ }
            foreach (var k in keys)
            {
                r.GoInsert(k, 1);
            }
            Assert.AreEqual(keys.Length, r.Count, "Tree count and key count match");

            //~ type exp struct {
            //~     inp string
            //~     out string
            //~ }
            //~ cases := []exp{
            //~     {"a", ""},
            //~     {"abc", ""},
            //~     {"fo", ""},
            //~     {"foo", "foo"},
            //~     {"foob", "foo"},
            //~     {"foobar", "foobar"},
            //~     {"foobarba", "foobar"},
            //~     {"foobarbaz", "foobarbaz"},
            //~     {"foobarbazzi", "foobarbaz"},
            //~     {"foobarbazzip", "foobarbazzip"},
            //~     {"foozi", "foo"},
            //~     {"foozip", "foozip"},
            //~     {"foozipzap", "foozip"},
            //~ }
            var cases = new (string inp, string @out)[]
Exemplo n.º 3
0
        // Put is used to insert or update an entry
        //~ func (i *InmemBackend) Put(entry *Entry) error {
        public async Task PutAsync(Entry entry)
        {
            //~ i.permitPool.Acquire()
            //~ defer i.permitPool.Release()
            //~
            //~ i.l.Lock()
            //~ defer i.l.Unlock()
            //~
            //~ i.root.Insert(entry.Key, entry)
            //~ return nil

            using (var defer = new Util.Defer())
            {
                await _permitPool.Acquire();

                defer.Add(async() => await _permitPool.Release());

                _l.EnterWriteLock();
                defer.Add(() => _l.ExitWriteLock());

                _root.GoInsert(entry.Key, entry);
            }
        }
Exemplo n.º 4
0
        //~ func TestRoot(t *testing.T) {
        public void TestRoot()
        {
            //~ r := New()
            var r = new RadixTree <int>();

            //~ _, ok := r.Delete("")
            //~ if ok {
            //~     t.Fatalf("bad")
            //~ }
            var(_, ok) = r.GoDelete("");
            Assert.IsFalse(ok, "Remove should fail");

            //~ _, ok = r.Insert("", true)
            //~ if ok {
            //~     t.Fatalf("bad")
            //~ }
            (_, ok) = r.GoInsert("", 0);
            Assert.IsFalse(ok, "Insert should not replace");

            //~ val, ok := r.Get("")
            //~ if !ok || val != true {
            //~     t.Fatalf("bad: %v", val)
            //~ }
            int val;

            (val, ok) = r.GoGet("");
            Assert.IsTrue(ok, "Get should not find key");
            Assert.AreEqual(default(int), val, "Get should return default int");

            //~ val, ok = r.Delete("")
            //~ if !ok || val != true {
            //~     t.Fatalf("bad: %v", val)
            //~ }
            (val, ok) = r.GoDelete("");
            Assert.IsTrue(ok, "Remove was successful");
            Assert.AreEqual(default(int), val, "Remove should return default int");
        }