Exemplo n.º 1
0
		internal static void SortEntireFile(Dictionary<string, Dictionary<string, HashSet<string>>> sortableProperties, XmlWriter writer, string pathname)
		{
			var readerSettings = new XmlReaderSettings { IgnoreWhitespace = true };

			// Step 2: Sort and rewrite file.
			using (var fastSplitter = new FastXmlElementSplitter(pathname))
			{
				var sorter = new BigDataSorter();
				bool foundOptionalFirstElement;
				foreach (var record in fastSplitter.GetSecondLevelElementStrings(OptionalFirstElementTag, StartTag, out foundOptionalFirstElement))
				{
					if (foundOptionalFirstElement)
					{
						// Step 2A: Write out custom property declaration(s).
						WriteElement(writer, SortCustomPropertiesRecord(record));
						foundOptionalFirstElement = false;
					}
					else
					{
						// Step 2B: Sort main CmObject record.
						var sortedMainObject = SortMainElement(sortableProperties, record);
						sorter.Add(sortedMainObject.Attribute("guid").Value, Utf8.GetBytes(sortedMainObject.ToString()));
					}
				}
				sorter.WriteResults(val => WriteElement(writer, readerSettings, val));
			}
		}
		public void Empty_String_Parameter_Throws()
		{
			using (var tempFile = new TempFile(""))
			{
				using (var reader = new FastXmlElementSplitter(tempFile.Path))
				{
					// ToList is needed to make the enumeration evaluate.
					Assert.Throws<ArgumentException>(() => reader.GetSecondLevelElementBytes("").ToList());
				}
			}
		}
Exemplo n.º 3
0
        public MakeRecordDictionary(IDictionary<string, byte[]> dictionary, string pathname,
			string firstElementMarker,
			string recordStartingTag, string identifierAttribute)
        {
            _dictionary = dictionary;
            _firstElementTag = firstElementMarker; // May be null, which is fine.
            _recordStartingTag = recordStartingTag;
            _elementSplitter = new FastXmlElementSplitter(pathname);
            _utf8 = Encoding.UTF8;
            _identifierWithDoubleQuote = _utf8.GetBytes(identifierAttribute + "=\"");
            _identifierWithSingleQuote = _utf8.GetBytes(identifierAttribute + "='");
        }
		private void LoadDataFile(object sender, EventArgs e)
		{
			try
			{
				string selectedPathname = null;
				using (var fileDlg = new OpenFileDialog())
				{
					if (fileDlg.ShowDialog(this) == DialogResult.OK)
						selectedPathname = fileDlg.FileName;
				}
				if (!string.IsNullOrEmpty(selectedPathname))
				{
					var extension = Path.GetExtension(selectedPathname).ToLowerInvariant();
					string firstElementMarker = null;
					string recordMarker = null;
					switch (extension)
					{
						case ".lift":
							firstElementMarker = "header";
							recordMarker = "entry";
							break;
						case ".chorusnotes":
							recordMarker = "annotation";
							break;
						case ".fwdata":
							firstElementMarker = "AdditionalFields";
							recordMarker = "rt";
							break;
					}
					using (var splitter = new FastXmlElementSplitter(selectedPathname))
					{
						bool foundOptionalFirstElement;
						var results = splitter.GetSecondLevelElementBytes(firstElementMarker, recordMarker, out foundOptionalFirstElement);
						Console.WriteLine("Records: " + results.Count());
					}
				}
				Close();
			}
			catch (Exception err)
			{
				var msg = err.Message;
				Console.WriteLine(msg);
				throw;
			}
		}
 public void No_Records_With_Children_Is_Fine()
 {
     const string noRecordsInput =
         @"<?xml version='1.0' encoding='utf-8'?>
     <classdata>
     </classdata>";
     var tempPathname = Path.GetTempFileName();
     var goodXmlPathname = Path.ChangeExtension(tempPathname, ".ClassData");
     File.Delete(tempPathname);
     try
     {
         File.WriteAllText(goodXmlPathname, noRecordsInput, Encoding.UTF8);
         using (var reader = new FastXmlElementSplitter(goodXmlPathname))
         {
             Assert.AreEqual(0, reader.GetSecondLevelElementBytes("rt").Count());
         }
     }
     finally
     {
         File.Delete(goodXmlPathname);
     }
 }
 public void Not_Xml_Throws()
 {
     const string noRecordsInput = "Some random text file.";
     var tempPathname = Path.GetTempFileName();
     var goodPathname = Path.ChangeExtension(tempPathname, ".txt");
     File.Delete(tempPathname);
     try
     {
         File.WriteAllText(goodPathname, noRecordsInput, Encoding.UTF8);
         using (var reader = new FastXmlElementSplitter(goodPathname))
         {
             // An earlier version was expected to throw XmlException. But we aren't parsing XML well enough to do that confidently.
             // Note: the ToList is needed to force the enumeration to enumerate.
             Assert.Throws<ArgumentException>(() => reader.GetSecondLevelElementBytes("rt").ToList());
         }
     }
     finally
     {
         File.Delete(goodPathname);
     }
 }
Exemplo n.º 7
0
		private static void TokenizeFile(MetadataCache mdc, string srcFwdataPathname, Dictionary<string, SortedDictionary<string, byte[]>> unownedObjects, Dictionary<string, SortedDictionary<string, byte[]>> classData, Dictionary<string, string> guidToClassMapping)
		{
			using (var fastSplitter = new FastXmlElementSplitter(srcFwdataPathname))
			{
				bool foundOptionalFirstElement;
				// NB: The main input file *does* have to deal with the optional first element.
				foreach (var record in fastSplitter.GetSecondLevelElementBytes(SharedConstants.AdditionalFieldsTag, SharedConstants.RtTag, out foundOptionalFirstElement))
					{
					if (foundOptionalFirstElement)
						{
							// Cache custom prop file for later write.
							var cpElement = DataSortingService.SortCustomPropertiesRecord(SharedConstants.Utf8.GetString(record));
							// Add custom property info to MDC, since it may need to be sorted in the data files.
							foreach (var propElement in cpElement.Elements(SharedConstants.CustomField))
							{
								var className = propElement.Attribute(SharedConstants.Class).Value;
								var propName = propElement.Attribute(SharedConstants.Name).Value;
								var typeAttr = propElement.Attribute("type");
								var adjustedTypeValue = MetadataCache.AdjustedPropertyType(typeAttr.Value);
								if (adjustedTypeValue != typeAttr.Value)
									typeAttr.Value = adjustedTypeValue;
								var customProp = new FdoPropertyInfo(
									propName,
									typeAttr.Value,
									true);
								mdc.AddCustomPropInfo(
									className,
									customProp);
							}
							mdc.ResetCaches();
							//optionalFirstElement = Utf8.GetBytes(cpElement.ToString());
						foundOptionalFirstElement = false;
						}
					else
					{
						CacheDataRecord(unownedObjects, classData, guidToClassMapping, record);
					}
				}
			}
			GC.Collect(2, GCCollectionMode.Forced);
		}
Exemplo n.º 8
0
		private void Verify(Stopwatch verifyTimer, StringBuilder sb)
		{
			GC.Collect(2, GCCollectionMode.Forced);
			verifyTimer.Start();
			GetFreshMdc(); // Want it fresh.
			var origData = new Dictionary<string, byte[]>(StringComparer.InvariantCultureIgnoreCase);
			using (var fastSplitterOrig = new FastXmlElementSplitter(_srcFwdataPathname + ".orig"))
			{
				var foundOrigOptionalFirstElement = false;
				var testedforExistanceOfOrigOptionalFirstElement = false;
				foreach (var origRecord in fastSplitterOrig.GetSecondLevelElementBytes(SharedConstants.AdditionalFieldsTag, SharedConstants.RtTag))
				{
					if (!testedforExistanceOfOrigOptionalFirstElement)
					{
						foundOrigOptionalFirstElement = FLExProjectSplitter.IsOptionalFirstElement(origRecord);
						testedforExistanceOfOrigOptionalFirstElement = true;
					}
					if (foundOrigOptionalFirstElement)
					{
						origData.Add(SharedConstants.AdditionalFieldsTag, origRecord);
						foundOrigOptionalFirstElement = false;
						continue;
					}
					origData.Add(XmlUtils.GetAttributes(origRecord, new HashSet<string> { SharedConstants.GuidStr })[SharedConstants.GuidStr].ToLowerInvariant(), origRecord);
				}
			}
			verifyTimer.Stop();
			GC.Collect(2, GCCollectionMode.Forced);
			verifyTimer.Start();
			using (var fastSplitterNew = new FastXmlElementSplitter(_srcFwdataPathname))
			{
				// NB: The main input file *does* have to deal with the optional first element.
				//var counter = 0;
				var foundNewOptionalFirstElement = false;
				var testedforExistanceOfNewOptionalFirstElement = false;
				foreach (var newRecordAsBytes in fastSplitterNew.GetSecondLevelElementBytes(SharedConstants.AdditionalFieldsTag, SharedConstants.RtTag))
				{
					if (!testedforExistanceOfNewOptionalFirstElement)
					{
						foundNewOptionalFirstElement = FLExProjectSplitter.IsOptionalFirstElement(newRecordAsBytes);
						testedforExistanceOfNewOptionalFirstElement = true;
					}
					var newRecCopyAsBytes = newRecordAsBytes;
					byte[] origRecAsBytes;
					string srcGuid = null;
					if (foundNewOptionalFirstElement)
					{
						origRecAsBytes = origData[SharedConstants.AdditionalFieldsTag];
						origData.Remove(SharedConstants.AdditionalFieldsTag);
						foundNewOptionalFirstElement = false;
					}
					else
					{
						var attrValues = XmlUtils.GetAttributes(newRecordAsBytes, new HashSet<string> { SharedConstants.GuidStr, SharedConstants.Class });
						srcGuid = attrValues[SharedConstants.GuidStr];
						origRecAsBytes = origData[srcGuid];
						origData.Remove(srcGuid);
						if (attrValues[SharedConstants.Class] == "WfiWordform")
						{
							var wfElement = Utilities.CreateFromBytes(origRecAsBytes);
							var csProp = wfElement.Element("Checksum");
							if (csProp != null)
							{
								csProp.Attribute(SharedConstants.Val).Value = "0";
								origRecAsBytes = SharedConstants.Utf8.GetBytes(wfElement.ToString());
							}
						}
					}

					//if (counter == 1000)
					//{
					//    verifyTimer.Stop();
					//    GC.Collect(2, GCCollectionMode.Forced);
					//    verifyTimer.Start();
					//    counter = 0;
					//}
					//else
					//{
					//    counter++;
					//}
					// Way too slow, since it has to always make the XmlNodes.
					// Just feeding strings to XmlUtilities.AreXmlElementsEqual is faster,
					// since it skips making them, if the strings are the same.
					//var origNode = CreateXmlNodeFromBytes(origRecAsBytes);
					//var newNode = CreateXmlNodeFromBytes(newRecCopyAsBytes);
					//if (XmlUtilities.AreXmlElementsEqual(origNode, newNode))
					//    continue;
					//if (srcGuid == null)
					//{
					//    WriteProblemDataFile(Path.Combine(_workingDir, "CustomProperties-SRC.txt"), origNode);
					//    WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "CustomProperties-TRG.txt"), newNode);
					//    sb.Append("Main src and trg custom properties are different in the resulting xml.");
					//}
					//else
					//{
					//    WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "-SRC.txt"), origNode);
					//    WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "-TRG.txt"), newNode);
					//    sb.AppendFormat("Main src and trg object with guid '{0}' are different in the resulting xml.", srcGuid);
					//}
					//if (XmlUtilities.AreXmlElementsEqual(SharedConstants.Utf8.GetString(origRecAsBytes), SharedConstants.Utf8.GetString(newRecCopyAsBytes)))
					//	continue;
					if (XmlUtilities.AreXmlElementsEqual(origRecAsBytes, newRecCopyAsBytes))
						continue;
					if (srcGuid == null)
					{
						WriteProblemDataFile(Path.Combine(_workingDir, "CustomProperties-SRC.txt"), origRecAsBytes);
						WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "CustomProperties-TRG.txt"), newRecCopyAsBytes);
						sb.Append("Main src and trg custom properties are different in the resulting xml.");
					}
					else
					{
						WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "-SRC.txt"), origRecAsBytes);
						WriteProblemDataFile(Path.Combine(_workingDir, srcGuid + "-TRG.txt"), newRecCopyAsBytes);
						sb.AppendFormat("Main src and trg object with guid '{0}' are different in the resulting xml.", srcGuid);
					}
					sb.AppendLine();
				}
			}
			if (origData.Count > 0)
			{
				sb.AppendFormat("Hmm, there are {0} more <rt> elements in the original than in the rebuilt fwdata file.", origData.Count);
				sb.AppendLine();
				foreach (var attrs in origData.Values.Select(byteData => XmlUtils.GetAttributes(byteData, new HashSet<string> { SharedConstants.GuidStr, SharedConstants.Class })))
				{
					sb.AppendFormat("\t\t'{0}' of class '{1}' is not in rebuilt file.", attrs[SharedConstants.GuidStr], attrs[SharedConstants.Class]);
					sb.AppendLine();
				}
			}
			verifyTimer.Stop();
		}
Exemplo n.º 9
0
		/// <summary>
		/// Sort the provided lift file into canonical order.
		///
		/// The resulting sorted file will be in a canonical order for the attributes and elements
		/// </summary>
		/// <param name="liftPathname">The assumed main lift file in a folder.</param>
		public static void SortLiftFile(string liftPathname)
		{
			Guard.AgainstNullOrEmptyString(liftPathname, "liftPathname");
			Guard.Against(Path.GetExtension(liftPathname).ToLowerInvariant() != ".lift", "Unexpected file extension");
			Guard.Against<FileNotFoundException>(!File.Exists(liftPathname), "Lift file does not exist.");

			using (var tempFile = new TempFile(File.ReadAllText(liftPathname), Utf8))
			{
				var sortedRootAttributes = SortRootElementAttributes(tempFile.Path);
				var sortedEntries = new SortedDictionary<string, XElement>(StringComparer.InvariantCultureIgnoreCase);
				XElement header = null;
				using (var splitter = new FastXmlElementSplitter(tempFile.Path))
				{
					bool hasHeader;
					foreach (var record in splitter.GetSecondLevelElementStrings("header", "entry", out hasHeader))
					{
						XElement element = FixBadTextElements(record);
						SortAttributes(element);

						if (hasHeader)
						{
							hasHeader = false;
							header = element;
							SortHeader(header);
						}
						else
						{
							var guidKey = element.Attribute("guid").Value.ToLowerInvariant();
							if (!sortedEntries.ContainsKey(guidKey))
							{
								SortEntry(element);
								sortedEntries.Add(GetUniqueKey(sortedEntries.Keys, guidKey), element);
							}
						}
					}
				}

				using (var writer = XmlWriter.Create(tempFile.Path, CanonicalXmlSettings.CreateXmlWriterSettings()))
				{
					writer.WriteStartDocument();
					writer.WriteStartElement("lift");

					foreach (var rootAttributeKvp in sortedRootAttributes)
					{
						var keyParts = rootAttributeKvp.Key.Split(':');
						if (keyParts.Length > 1)
							writer.WriteAttributeString(keyParts[0], keyParts[1], null, rootAttributeKvp.Value);
						else
							writer.WriteAttributeString(rootAttributeKvp.Key, rootAttributeKvp.Value);
					}

					if (header != null)
					{
						WriteElement(writer, header);
					}

					foreach (var entryElement in sortedEntries.Values)
					{
						WriteElement(writer, entryElement);
					}

					writer.WriteEndElement();
					writer.WriteEndDocument();
				}
				File.Copy(tempFile.Path, liftPathname, true);
			}
		}
		private static void ProcessContent(FastXmlElementSplitter fastXmlElementSplitter, int expectedCount, string firstElementMarker,
			string recordMarker, Encoding enc)
		{
			bool foundOptionalFirstElement;
			var elementBytes =
				fastXmlElementSplitter.GetSecondLevelElementBytes(firstElementMarker, recordMarker, out foundOptionalFirstElement)
										.ToList();
			Assert.AreEqual(expectedCount, elementBytes.Count);
			var elementStrings =
				fastXmlElementSplitter.GetSecondLevelElementStrings(firstElementMarker, recordMarker,
					out foundOptionalFirstElement).ToList();
			Assert.AreEqual(expectedCount, elementStrings.Count);
			for (var i = 0; i < elementStrings.Count; ++i)
			{
				var currentStr = elementStrings[i];
				Assert.AreEqual(
					currentStr,
					enc.GetString(elementBytes[i]));
				var el = XElement.Parse(currentStr);
			}
		}
		// This test may be uncommented to try the splitter on some particular file which causes problems.
		//[Test]
		//public void SplitterParsesProblemFile()
		//{
		//	using (var fastXmlElementSplitter = new FastXmlElementSplitter(@"D:\DownLoads\y.lift"))
		//	{
		//		bool foundOptionalFirstElement;
		//		fastXmlElementSplitter.GetSecondLevelElementBytes("header", "entry", out foundOptionalFirstElement)
		//									  .ToList();
		//	}
		//}

		private static void CheckGoodFile(string hasRecordsInput, int expectedCount, string firstElementMarker,
			string recordMarker, Encoding enc = null)
		{
			var goodPathname = Path.GetTempFileName();
			try
			{
				if (enc == null)
					enc = Encoding.UTF8;
				File.WriteAllText(goodPathname, hasRecordsInput, enc);
				using (var fastXmlElementSplitter = new FastXmlElementSplitter(goodPathname))
				{
					ProcessContent(fastXmlElementSplitter, expectedCount, firstElementMarker, recordMarker, enc);
				}
				using (var fastXmlElementSplitter = new FastXmlElementSplitter(File.ReadAllBytes(goodPathname)))
				{
					ProcessContent(fastXmlElementSplitter, expectedCount, firstElementMarker, recordMarker, enc);
				}
			}
			finally
			{
				File.Delete(goodPathname);
			}
		}
		private static void ProcessMultipleEntryContent(FastXmlElementSplitter fastXmlElementSplitter)
		{
			string[] expectedNames = new string[] { "Language", "FontName", "FontSize", "Analyses", "Entries" };
			var elements = fastXmlElementSplitter.GetSecondLevelElements().ToList();
			Assert.AreEqual(5, elements.Count);
			for (var i = 0; i < elements.Count; ++i)
			{
				var curElement = elements[i];
				Assert.AreEqual(curElement.Name, expectedNames[i]);
				var el = XElement.Parse(curElement.BytesAsString);
				if (i >= 3)  // parse the sublist for Analyses and Entries
				{
					using (var splitter = new FastXmlElementSplitter(curElement.Bytes))
					{
						var subElements = splitter.GetSecondLevelElements().ToList();
						Assert.AreEqual(2, subElements.Count);
						Assert.IsFalse(subElements.Any(t => t.Name != "item"));
					}
				}
			}
		}
		public void SplitterHandlesMultipleEntryTypes()
		{
			const string simulatedLexicalFile =
				@"<Lexicon>
  <Language>Takwane</Language>
  <FontName>Tahoma</FontName>
  <FontSize>9</FontSize>
  <Analyses>
	<item>
	  <string>ahibathiziwa</string>
	  <ArrayOfLexeme>
		<Lexeme Type='Prefix' Form='ahi' Homograph='1' />
		<Lexeme Type='Stem' Form='bathiz' Homograph='1' />
		<Lexeme Type='Suffix' Form='iwa' Homograph='1' />
	  </ArrayOfLexeme>
	</item>
	<item>
	  <string>dhahaleele</string>
	  <ArrayOfLexeme>
		<Lexeme Type='Prefix' Form='dha' Homograph='1' />
		<Lexeme Type='Stem' Form='haleel' Homograph='1' />
		<Lexeme Type='Suffix' Form='e' Homograph='1' />
	  </ArrayOfLexeme>
	</item>
 </Analyses>
 <Entries>
	<item>
	  <Lexeme Type='Word' Form='eehu' Homograph='1' />
	  <Entry>
		<Sense Id='AnuoxmE2'>
		  <Gloss Language='English'>our</Gloss>
		</Sense>
		<Sense Id='LgBvPFTX'>
		  <Gloss Language='Portuguese'>nosso</Gloss>
		</Sense>
	  </Entry>
	</item>
	<item>
	  <Lexeme Type='Word' Form='yesu' Homograph='1' />
	  <Entry>
		<Sense Id='BBY1Mk/1'>
		  <Gloss Language='English'>jesus</Gloss>
		</Sense>
		<Sense Id='zV8exv2K'>
		  <Gloss Language='Portuguese'>jesus</Gloss>
		</Sense>
	  </Entry>
	</item>
  </Entries>
</Lexicon>";
			using (var tempFile = new TempFile())
			{
				File.WriteAllText(tempFile.Path, simulatedLexicalFile, Encoding.UTF8);
				using (var fastXmlElementSplitter = new FastXmlElementSplitter(tempFile.Path))
				{
					ProcessMultipleEntryContent(fastXmlElementSplitter);
				}
				using (var fastXmlElementSplitter = new FastXmlElementSplitter(File.ReadAllBytes(tempFile.Path)))
				{
					ProcessMultipleEntryContent(fastXmlElementSplitter);
				}
			}
		}
		public void Not_Xml_Throws()
		{
			const string noRecordsInput = "Some random text file.";

			using (var tempFile = TempFile.WithExtension(".txt"))
			{
				File.WriteAllText(tempFile.Path, noRecordsInput, Encoding.UTF8);
				using (var reader = new FastXmlElementSplitter(tempFile.Path))
				{
					// An earlier version was expected to throw XmlException. But we aren't parsing XML well enough to do that confidently.
					// Note: the ToList is needed to force the enumeration to enumerate.
					Assert.Throws<ArgumentException>(() => reader.GetSecondLevelElementBytes("rt").ToList());
				}
			}
		}
Exemplo n.º 15
0
        private static Dictionary<string, string> MakeRecordDictionary(IMergeEventListener mainMergeEventListener,
			IMergeStrategy mergeStrategy,
			string pathname,
			bool removeAmbiguousChildren,
			string firstElementMarker,
			string recordStartingTag,
			string identifierAttribute)
        {
            var records = new Dictionary<string, string>(EstimatedObjectCount(pathname),
                                                         StringComparer.InvariantCultureIgnoreCase);
            using (var fastSplitter = new FastXmlElementSplitter(pathname))
            {
                bool foundOptionalFirstElement;
                foreach (var record in fastSplitter.GetSecondLevelElementStrings(firstElementMarker, recordStartingTag, out foundOptionalFirstElement))
                {
                    if (foundOptionalFirstElement)
                    {
                        var key = firstElementMarker.ToLowerInvariant();
                        if (records.ContainsKey(key))
                        {
                            mainMergeEventListener.WarningOccurred(
                                new MergeWarning(string.Format("{0}: There is more than one optional first element '{1}'", pathname, key)));
                        }
                        else
                        {
                            if (removeAmbiguousChildren)
                            {
                                var possiblyRevisedRecord = RemoveAmbiguousChildren(mainMergeEventListener, mergeStrategy.GetStrategies(), record);
                                records.Add(key, possiblyRevisedRecord);
                            }
                            else
                            {
                                records.Add(key, record);
                            }
                        }
                        foundOptionalFirstElement = false;
                    }
                    else
                    {
                        var attrValues = XmlUtils.GetAttributes(record, new HashSet<string> {"dateDeleted", identifierAttribute});

                        // Eat tombstones.
                        if (attrValues["dateDeleted"] != null)
                            continue;

                        var identifier = attrValues[identifierAttribute];
                        if (string.IsNullOrEmpty(identifierAttribute))
                        {
                            mainMergeEventListener.WarningOccurred(
                                new MergeWarning(string.Format("{0}: There was no identifier for the record", pathname)));
                            continue;
                        }
                        if (records.ContainsKey(identifier))
                        {
                            mainMergeEventListener.WarningOccurred(
                                new MergeWarning(string.Format("{0}: There is more than one element with the identifier '{1}'", pathname,
                                                               identifier)));
                        }
                        else
                        {
                            if (removeAmbiguousChildren)
                            {
                                var possiblyRevisedRecord = RemoveAmbiguousChildren(mainMergeEventListener, mergeStrategy.GetStrategies(), record);
                                records.Add(identifier, possiblyRevisedRecord);
                            }
                            else
                            {
                                records.Add(identifier, record);
                            }
                        }
                    }
                }
            }

            return records;
        }
 public void Null_Parameter_Throws()
 {
     // review: I (CP) don't know that this is a sufficiently good method for determining the file - even in windows.
     // In mono I had to make this the absolute path. 2011-01
     #if MONO
     using (var reader = new FastXmlElementSplitter(Assembly.GetExecutingAssembly().CodeBase.Replace(@"file://", null)))
     #else
     using (var reader = new FastXmlElementSplitter(Assembly.GetExecutingAssembly().CodeBase.Replace(@"file:///", null)))
     #endif
     {
         // ToList is needed to make the enumerable evaluate.
         Assert.Throws<ArgumentException>(() => reader.GetSecondLevelElementBytes(null).ToList());
     }
 }
        // This test may be uncommented to try the splitter on some particular file which causes problems.
        //[Test]
        //public void SplitterParsesProblemFile()
        //{
        //    using (var fastXmlElementSplitter = new FastXmlElementSplitter(@"D:\DownLoads\y.lift"))
        //    {
        //        bool foundOptionalFirstElement;
        //        fastXmlElementSplitter.GetSecondLevelElementBytes("header", "entry", out foundOptionalFirstElement)
        //                                      .ToList();
        //    }
        //}
        private static void CheckGoodFile(string hasRecordsInput, int expectedCount, string firstElementMarker,
			string recordMarker, Encoding enc = null)
        {
            var goodPathname = Path.GetTempFileName();
            try
            {
                if (enc == null)
                    enc = Encoding.UTF8;
                File.WriteAllText(goodPathname, hasRecordsInput, enc);
                using (var fastXmlElementSplitter = new FastXmlElementSplitter(goodPathname))
                {
                    bool foundOptionalFirstElement;
                    var elementBytes =
                        fastXmlElementSplitter.GetSecondLevelElementBytes(firstElementMarker, recordMarker, out foundOptionalFirstElement)
                                              .ToList();
                    Assert.AreEqual(expectedCount, elementBytes.Count);
                    var elementStrings =
                        fastXmlElementSplitter.GetSecondLevelElementStrings(firstElementMarker, recordMarker,
                            out foundOptionalFirstElement).ToList();
                    Assert.AreEqual(expectedCount, elementStrings.Count);
                    for (var i = 0; i < elementStrings.Count; ++i)
                    {
                        var currentStr = elementStrings[i];
                        Assert.AreEqual(
                            currentStr,
                            enc.GetString(elementBytes[i]));
                        var el = XElement.Parse(currentStr);
                    }
                }
            }
            finally
            {
                File.Delete(goodPathname);
            }
        }
		public void No_Records_Without_Children_Is_Fine()
		{
			const string noRecordsInput =
				@"<?xml version='1.0' encoding='utf-8'?>
<classdata />";

			using (var tempFile = TempFile.WithExtension(".ClassData"))
			{
				File.WriteAllText(tempFile.Path, noRecordsInput, Encoding.UTF8);
				using (var reader = new FastXmlElementSplitter(tempFile.Path))
				{
					Assert.AreEqual(0, reader.GetSecondLevelElementBytes("rt").Count());
				}
			}
		}
Exemplo n.º 19
0
        private void Dispose(bool disposing)
        {
            if (_isDisposed)
                return; // Done already, so nothing left to do.

            if (disposing)
            {
                if (_elementSplitter != null)
                    _elementSplitter.Dispose();
            }

            // Dispose unmanaged resources here, whether disposing is true or false.

            // Main data members.
            _elementSplitter = null;
            _dictionary = null;

            _isDisposed = true;
        }
Exemplo n.º 20
0
		private MetadataCache GetFreshMdc()
		{
			var mdc = MetadataCache.TestOnlyNewCache;
			var modelVersionPathname = Path.Combine(_workingDir, SharedConstants.ModelVersionFilename);
			if (!File.Exists(modelVersionPathname))
			{
				FLExProjectSplitter.WriteVersionFile(_srcFwdataPathname);
				using (var fastSplitter = new FastXmlElementSplitter(_srcFwdataPathname))
				{
					bool foundOptionalFirstElement;
					// NB: The main input file *does* have to deal with the optional first element.
					foreach (var record in fastSplitter.GetSecondLevelElementBytes(SharedConstants.AdditionalFieldsTag, SharedConstants.RtTag, out foundOptionalFirstElement))
					{
						if (foundOptionalFirstElement)
						{
							// 2. Write custom properties file with custom properties.
							FileWriterService.WriteCustomPropertyFile(mdc, _workingDir, record);
						}
						else
						{
							// Write empty custom properties file.
							FileWriterService.WriteCustomPropertyFile(Path.Combine(_workingDir, SharedConstants.CustomPropertiesFilename), null);
						}
						break;
					}
				}
			}
			var modelData = File.ReadAllText(modelVersionPathname);
			mdc.UpgradeToVersion(Int32.Parse(modelData.Split(new[] { "{", ":", "}" }, StringSplitOptions.RemoveEmptyEntries)[1]));
			var customPropPathname = Path.Combine(_workingDir, SharedConstants.CustomPropertiesFilename);
			mdc.AddCustomPropInfo(new MergeOrder(
					customPropPathname, customPropPathname, customPropPathname,
					new MergeSituation(customPropPathname, "", "", "", "", MergeOrder.ConflictHandlingModeChoices.WeWin)));
			return mdc;
		}
Exemplo n.º 21
0
		private static Dictionary<string, string> WriteOrCacheProperties(string mainFilePathname,
			Dictionary<string, SortedDictionary<string, byte[]>> classData,
			Dictionary<string, XElement> wellUsedElements)
		{
			var pathRoot = Path.GetDirectoryName(mainFilePathname);
			var mdc = MetadataCache.MdCache;
			// Key is the guid of the object, and value is the class name.
			var guidToClassMapping = new Dictionary<string, string>();
			using (var fastSplitter = new FastXmlElementSplitter(mainFilePathname))
			{
				var haveWrittenCustomFile = false;
				bool foundOptionalFirstElement;
				// NB: The main input file *does* have to deal with the optional first element.
				foreach (var record in fastSplitter.GetSecondLevelElementBytes(SharedConstants.AdditionalFieldsTag, SharedConstants.RtTag, out foundOptionalFirstElement))
				{
					if (foundOptionalFirstElement)
					{
						// 2. Write custom properties file with custom properties.
						FileWriterService.WriteCustomPropertyFile(mdc, pathRoot, record);
						foundOptionalFirstElement = false;
						haveWrittenCustomFile = true;
					}
					else
					{
						CacheDataRecord(record, wellUsedElements, classData, guidToClassMapping);
					}
				}
				if (!haveWrittenCustomFile)
				{
					// Write empty custom properties file.
					FileWriterService.WriteCustomPropertyFile(Path.Combine(pathRoot, SharedConstants.CustomPropertiesFilename), null);
				}
			}
			return guidToClassMapping;
		}
Exemplo n.º 22
0
		private void RoundTripData(Stopwatch breakupTimer, Stopwatch restoreTimer, Stopwatch ambiguousTimer, StringBuilder sbValidation)
		{
			File.Copy(_srcFwdataPathname, _srcFwdataPathname + ".orig", true); // Keep it safe.
			GetFreshMdc(); // Want it fresh.
			breakupTimer.Start();
			FLExProjectSplitter.PushHumptyOffTheWall(new NullProgress(), _srcFwdataPathname);
			breakupTimer.Stop();
			GC.Collect(2, GCCollectionMode.Forced);

			if (_cbCheckAmbiguousElements.Checked)
			{
				var allDataFiles = new HashSet<string>();
				var currentDir = Path.Combine(_workingDir, "Linguistics");
				if (Directory.Exists(currentDir))
				{
					allDataFiles.UnionWith(from pathname in Directory.GetFiles(currentDir, "*.*", SearchOption.AllDirectories)
										   where !pathname.ToLowerInvariant().EndsWith("chorusnotes")
										   select pathname);
				}
				currentDir = Path.Combine(_workingDir, "Anthropology");
				if (Directory.Exists(currentDir))
				{
					allDataFiles.UnionWith(from pathname in Directory.GetFiles(currentDir, "*.*", SearchOption.AllDirectories)
										   where !pathname.ToLowerInvariant().EndsWith("chorusnotes")
										   select pathname);
				}
				currentDir = Path.Combine(_workingDir, "Other");
				if (Directory.Exists(currentDir))
				{
					allDataFiles.UnionWith(
						from pathname in Directory.GetFiles(currentDir, "*.*", SearchOption.AllDirectories)
						where !pathname.ToLowerInvariant().EndsWith("chorusnotes")
						select pathname);
				}
				currentDir = Path.Combine(_workingDir, "General");
				if (Directory.Exists(currentDir))
				{
					allDataFiles.UnionWith(from pathname in Directory.GetFiles(currentDir, "*.*", SearchOption.AllDirectories)
										   where !pathname.ToLowerInvariant().EndsWith("chorusnotes")
										   select pathname);
				}
				var mergeOrder = new MergeOrder(null, null, null, new NullMergeSituation())
				{
					EventListener = new ChangeAndConflictAccumulator()
				};
				var merger = FieldWorksMergeServices.CreateXmlMergerForFieldWorksData(mergeOrder, MetadataCache.MdCache);
				ambiguousTimer.Start();
				foreach (var dataFile in allDataFiles)
				{
					var extension = Path.GetExtension(dataFile).Substring(1);
					string optionalElementName = null;
					string mainRecordName = null;
					switch (extension)
					{
						case SharedConstants.Style:
							mainRecordName = SharedConstants.StStyle;
							break;
						case SharedConstants.List:
							mainRecordName = SharedConstants.CmPossibilityList;
							break;
						case SharedConstants.langproj:
							mainRecordName = SharedConstants.LangProject;
							break;
						case SharedConstants.Annotation:
							mainRecordName = SharedConstants.CmAnnotation;
							break;
						case SharedConstants.Filter:
							mainRecordName = SharedConstants.CmFilter;
							break;
						case SharedConstants.orderings:
							mainRecordName = SharedConstants.VirtualOrdering;
							break;
						case SharedConstants.pictures:
							mainRecordName = SharedConstants.CmPicture;
							break;
						case SharedConstants.ArchivedDraft:
							mainRecordName = SharedConstants.ScrDraft;
							break;
						case SharedConstants.ImportSetting:
							mainRecordName = SharedConstants.ScrImportSet;
							break;
						case SharedConstants.Srs:
							mainRecordName = SharedConstants.ScrRefSystem;
							break;
						case SharedConstants.Trans:
							mainRecordName = SharedConstants.Scripture;
							break;
						case SharedConstants.bookannotations:
							mainRecordName = SharedConstants.ScrBookAnnotations;
							break;
						case SharedConstants.book:
							mainRecordName = SharedConstants.ScrBook;
							break;
						case SharedConstants.Ntbk:
							optionalElementName = SharedConstants.Header;
							mainRecordName = SharedConstants.RnGenericRec;
							break;
						case SharedConstants.Reversal:
							optionalElementName = SharedConstants.Header;
							mainRecordName = SharedConstants.ReversalIndexEntry;
							break;
						case SharedConstants.Lexdb:
							optionalElementName = SharedConstants.Header;
							mainRecordName = SharedConstants.LexEntry;
							break;
						case SharedConstants.TextInCorpus:
							mainRecordName = SharedConstants.Text;
							break;
						case SharedConstants.Inventory:
							optionalElementName = SharedConstants.Header;
							mainRecordName = SharedConstants.WfiWordform;
							break;
						case SharedConstants.DiscourseExt:
							optionalElementName = SharedConstants.Header;
							mainRecordName = SharedConstants.DsChart;
							break;
						case SharedConstants.Featsys:
							mainRecordName = SharedConstants.FsFeatureSystem;
							break;
						case SharedConstants.Phondata:
							mainRecordName = SharedConstants.PhPhonData;
							break;
						case SharedConstants.Morphdata:
							mainRecordName = SharedConstants.MoMorphData;
							break;
						case SharedConstants.Agents:
							mainRecordName = SharedConstants.CmAgent;
							break;
					}
					using (var fastSplitter = new FastXmlElementSplitter(dataFile))
					{
						bool foundOptionalFirstElement;
						foreach (var record in fastSplitter.GetSecondLevelElementBytes(optionalElementName, mainRecordName, out foundOptionalFirstElement))
						{
							XmlMergeService.RemoveAmbiguousChildren(merger.EventListener, merger.MergeStrategies, CreateXmlNodeFromBytes(record));
						}
					}
				}
				ambiguousTimer.Stop();
				foreach (var warning in ((ChangeAndConflictAccumulator)merger.EventListener).Warnings)
				{
					sbValidation.AppendLine(warning.Description);
					sbValidation.AppendLine();
					sbValidation.AppendLine(warning.HtmlDetails);
					sbValidation.AppendLine();
				}
				GC.Collect(2, GCCollectionMode.Forced);
			}
			restoreTimer.Start();
			FLExProjectUnifier.PutHumptyTogetherAgain(new NullProgress(), _srcFwdataPathname);
			restoreTimer.Stop();
			GC.Collect(2, GCCollectionMode.Forced);
		}