Exemplo n.º 1
0
        public void ToStringTest()
        {
            INodeWriter serializer = new JsonNodeWriter();

            Assert.AreEqual(string.Empty, serializer.ToString());
            serializer.Serialize("hello", null);
            Assert.AreEqual("\"hello\" : {\n}", serializer.ToString());
        }
Exemplo n.º 2
0
        public void EndSerializeTest()
        {
            INodeWriter serializer = new JsonNodeWriter();

            serializer.EndSerialize(null);
            Assert.AreEqual("}", serializer.ToString());

            serializer = new JsonNodeWriter();
            Assert.AreEqual(string.Empty, serializer.ToString());
            serializer.EndSerialize(new NodeObj("hello", "world"));
            Assert.AreEqual("\"hello\" : \"world\"\n}", serializer.ToString());
        }
Exemplo n.º 3
0
        public void StartSerializeTest()
        {
            INodeWriter serializer = new JsonNodeWriter();

            serializer.StartSerialize("hello", null);
            Assert.AreEqual("\"hello\" : {", serializer.ToString());

            serializer = new JsonNodeWriter();
            serializer.StartSerialize("hello", new NodeObj("hello", "world"));
            Assert.AreEqual("\"hello\" : {\n  \"hello\" : \"world\"", serializer.ToString());
            serializer.StartSerialize("world", new NodeObj("hello", "world"));
            Assert.AreEqual("\"hello\" : {\n  \"hello\" : \"world\",\n  \"world\" : {\n    \"hello\" : \"world\"", serializer.ToString());
        }
Exemplo n.º 4
0
        public void ParserParseTest()
        {
            string path        = (string)TestContext.DataRow["files"];
            string testcontent = File.ReadAllText(path);

            string[] testparts = testcontent.Split(new string[] { "<<<TEST>>>" }, StringSplitOptions.RemoveEmptyEntries);
            Assert.IsTrue(testparts.Length >= 2);

            var sourceUnit = new CodeSourceUnit(testparts[0], path, Encoding.UTF8, Lexer.LexicalStates.INITIAL, LanguageFeatures.Basic);
            var factory    = new BasicNodesFactory(sourceUnit);
            var errors     = new TestErrorSink();

            //
            sourceUnit.Parse(factory, errors, new TestErrorRecovery());

            //
            if (testparts[1].TrimStart().StartsWith(Errors))
            {
                var matches     = _errorRegex.Matches(testparts[1]);
                var knownErrors = matches[0].Groups["Number"].Value.Split(',');
                Assert.AreEqual(1, matches.Count, path);
                Assert.AreEqual(knownErrors.Length, errors.Count, path);
                int errorid = 0;
                for (int i = 0; i < knownErrors.Length; i++)
                {
                    Assert.IsTrue(int.TryParse(knownErrors[i], out errorid), path);
                    Assert.AreEqual(errorid, errors.Errors[i].Error.Id, path);
                    Assert.IsNotNull(errors.Errors[i].ToString());
                }
                testparts[1] = matches[0].Groups["JSON"].Value;
            }
            else
            {
                Assert.AreEqual(0, errors.Count, path);
            }

            Assert.IsNotNull(sourceUnit.Ast);

            var            serializer = new JsonNodeWriter();
            TreeSerializer visitor    = new TreeSerializer(serializer);

            sourceUnit.Ast.VisitMe(visitor);

            Regex  rgx      = new Regex(@"""Span""[^}]*},?\s*\n?"); // omit Span for more compact testing (position must be verified separately)
            string expected = rgx.Replace(testparts[1].Trim().Replace("\r", string.Empty).Replace("\n", string.Empty).Replace(" ", string.Empty), string.Empty);
            string actual   = rgx.Replace(serializer.ToString().Replace("\r", string.Empty).Replace("\n", string.Empty).Replace(" ", string.Empty), string.Empty);

            if (testparts[1].Trim() != "<<<IGNORE>>>")
            {
                // IMPORTANT - Uncomment to regenerate test data
                //File.WriteAllText(path, testparts[0] + "\n<<<TEST>>>\n" + rgx.Replace(serializer.ToString(), string.Empty));
                Assert.AreEqual(expected, actual, path);
            }

            // check every node has a parent
            var parentChecker = new ContainingElementCheck();

            parentChecker.VisitGlobalCode(sourceUnit.Ast);

            // check nodes have correct span corresponding to correct source text
            var spanChecker = new NameSpanCheck(testparts[0]);

            spanChecker.VisitGlobalCode(sourceUnit.Ast);
        }
        public void SerializerTreeVisitorVisitStringLiteralTest()
        {
            var            serializer = new JsonNodeWriter();
            TreeSerializer visitor    = new TreeSerializer(serializer);

            visitor.VisitStringLiteral(new StringLiteral(new Span(0, 10), "hello world"));
            Assert.AreEqual("\"StringLiteral\" : {\n  \"Span\" : {\n    \"start\" : \"0\",\n    \"end\" : \"10\"\n  },\n  \"Value\" : \"hello world\"\n}", serializer.ToString());
        }
Exemplo n.º 6
0
        public void EmptyTokensVisitorTest()
        {
            string path = (string)TestContext.DataRow["files"];

            if (path.Contains("functions1.phpt"))
            {
                return; // TODO - too slow test
            }
            string testcontent = File.ReadAllText(path);
            var    original    = testcontent;

            if (original.Contains("namespace\\"))
            {
                return; // TODO - current namespace cannot be decided from AST
            }

            var sourceUnit = new TestSourceUnit(original, path, Encoding.UTF8, Lexer.LexicalStates.INITIAL, LanguageFeatures.Php71Set);
            var factory    = new BasicNodesFactory(sourceUnit);
            var errors     = new TestErrorSink();

            sourceUnit.Parse(factory, errors, new TestErrorRecovery());
            GlobalCode ast = sourceUnit.Ast;

            if (errors.Count != 0)
            {
                return; // AST is null or invalid
            }

            var provider = SourceTokenProviderFactory.CreateEmptyProvider();
            var composer = new EmptyComposer(provider);
            var visitor  = new TokenVisitor(new TreeContext(ast), composer, provider);

            visitor.VisitElement(ast);
            var code = composer.Code.ToString();

            var expectedStr = PrepareString(original);
            var actualStr   = PrepareString(code);

            Assert.AreEqual(expectedStr, actualStr);
            var expected = FilterTokens(sourceUnit.SourceLexer.AllTokens);
            var actual   = FilterTokens(composer.Processed);

            Assert.AreEqual(expected.Length, actual.Length);
            for (int i = 0; i < Math.Min(expected.Length, actual.Length); i++)
            {
                if (expected[i].Token == Tokens.T_SEMI && actual[i].Token == Tokens.T_CASE)
                {
                }
                if (expected[i].Token == Tokens.T_LOGICAL_OR && actual[i].Token == Tokens.T_BOOLEAN_OR ||
                    expected[i].Token == Tokens.T_LOGICAL_AND && actual[i].Token == Tokens.T_BOOLEAN_AND)
                {
                }
                else
                {
                    Assert.AreEqual(expected[i].Token, actual[i].Token);
                }
            }


            sourceUnit = new TestSourceUnit(code, path, Encoding.UTF8, Lexer.LexicalStates.INITIAL, LanguageFeatures.Php71Set);
            sourceUnit.Parse(factory, errors, new TestErrorRecovery());
            var newAst = sourceUnit.Ast;

            var serializer        = new JsonNodeWriter();
            var serializerVisitor = new TreeSerializer(serializer);

            ast.VisitMe(visitor);
            expectedStr       = serializer.ToString();
            serializer        = new JsonNodeWriter();
            serializerVisitor = new TreeSerializer(serializer);
            newAst.VisitMe(visitor);
            actualStr = serializer.ToString();
            Assert.AreEqual(expectedStr, actualStr);
        }