using System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Linq; using System.Text; using Microsoft.VisualStudio.TestTools.UnitTesting; using ChanSort.Api; using ChanSort.Loader.Samsung; using ChanSort.Loader.Samsung.Scm; namespace Test.Loader.Samsung.Scm { [TestClass] public class SamsungScmTest { #region InitExpectedSamsungData() private Dictionary InitExpectedSamsungData() { var expected = new[] { new LoaderTestBase.ExpectedData(@"catmater_B\Clone.scm", 31, 272, 0, 0, 0) , new LoaderTestBase.ExpectedData(@"easy2003_B\easy2003_B.scm", 0, 0, 1225, 0, 0) , //new ExpectedData(@"_Manu_C\channel_list_LE40C650_1001.scm", 0, 9, 0, 0, 0) }; var dict = new Dictionary(StringComparer.InvariantCultureIgnoreCase); foreach (var entry in expected) dict[entry.File] = entry; return dict; } #endregion #region TestSamsungScmLoader() [TestMethod] [DeploymentItem("ChanSort.Loader.Samsung\\ChanSort.Loader.Samsung.ini")] public void TestSamsungScmLoader() { var expectedData = this.InitExpectedSamsungData(); SamsungPlugin plugin = new SamsungPlugin(); StringBuilder errors = new StringBuilder(); var list = LoaderTestBase.FindAllFiles("TestFiles\\TestFiles_Samsung", "*.scm"); var models = new Dictionary(); foreach (var file in list) { if (file.Contains("Apu TV") || file.Contains("__broken") || file.Contains("unsupported")) continue; Debug.Print("Testing " + file); try { var serializer = plugin.CreateSerializer(file) as ScmSerializer; Assert.IsNotNull(serializer, "No Serializer for " + file); serializer.Load(); var fileName = Path.GetFileName(file) ?? ""; var model = this.GetSamsungModel(file); var analogAirList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.AnalogT | ChanSort.Api.SignalSource.Tv); var analogCableList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.AnalogC | ChanSort.Api.SignalSource.Tv); var digitalAirList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.DvbT | ChanSort.Api.SignalSource.Tv); var digitalCableList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.DvbC | ChanSort.Api.SignalSource.Tv); var satChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.DvbS | ChanSort.Api.SignalSource.Tv); var primeChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.CablePrimeD | ChanSort.Api.SignalSource.Tv); var hdplusChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.HdPlusD | ChanSort.Api.SignalSource.Tv); var freesatChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.FreesatD | ChanSort.Api.SignalSource.Tv); var tivusatChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.TivuSatD | ChanSort.Api.SignalSource.Tv); var iptvChannelList = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.Ip | SignalSource.Tv); string key = serializer.Series + "\t" + model + "\t" + serializer.AnalogChannelLength + "\t" + (analogAirList != null && analogAirList.Count > 0) + "\t" + (analogCableList != null && analogCableList.Count > 0) + "\t" + serializer.DigitalChannelLength + "\t" + (digitalAirList != null && digitalAirList.Count > 0) + "\t" + (digitalCableList != null && digitalCableList.Count > 0) + "\t" + (primeChannelList != null && primeChannelList.Count > 0) + "\t" + serializer.SatChannelLength + "\t" + (satChannelList != null && satChannelList.Count > 0) + "\t" + serializer.HdPlusChannelLength + "\t" + (hdplusChannelList != null && hdplusChannelList.Count > 0) + "\t" + (freesatChannelList != null && freesatChannelList.Count > 0) + "\t" + (tivusatChannelList != null && tivusatChannelList.Count > 0) + "\t" + (iptvChannelList != null && iptvChannelList.Count > 0) + "\t" + serializer.SatDatabaseVersion; string relPath = Path.GetFileName(Path.GetDirectoryName(file)) + "\\" + fileName; models[key] = serializer.Series + "\t" + model + "\t" + serializer.AnalogChannelLength + "\t" + serializer.DigitalChannelLength + "\t" + serializer.SatChannelLength + "\t" + serializer.HdPlusChannelLength + "\t" + serializer.SatDatabaseVersion + "\t" + (analogAirList == null ? 0 : analogAirList.Count) + "\t" + (analogCableList == null ? 0 : analogCableList.Count) + "\t" + (digitalAirList == null ? 0 : digitalAirList.Count) + "\t" + (digitalCableList == null ? 0 : digitalCableList.Count) + "\t" + (primeChannelList == null ? 0 : primeChannelList.Count) + "\t" + (satChannelList == null ? 0 : satChannelList.Count) + "\t" + (hdplusChannelList == null ? 0 : hdplusChannelList.Count) + "\t" + (freesatChannelList == null ? 0 : freesatChannelList.Count) + "\t" + (tivusatChannelList == null ? 0 : tivusatChannelList.Count) + "\t" + (iptvChannelList == null ? 0 : iptvChannelList.Count) + "\t" + relPath; Assert.IsFalse(serializer.DataRoot.IsEmpty, "No channels loaded from " + file); LoaderTestBase.ExpectedData exp; key = Path.GetFileName(Path.GetDirectoryName(file)) + "\\" + Path.GetFileName(file); if (expectedData.TryGetValue(key, out exp)) { var analogTv = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.AnalogC); var dtvTv = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.DvbC); var satTv = serializer.DataRoot.GetChannelList(ChanSort.Api.SignalSource.DvbS); expectedData.Remove(key); if (exp.AnalogChannels != 0 || analogTv != null) Assert.AreEqual(exp.AnalogChannels, analogTv.Channels.Count, file + ": analog"); if (exp.DtvChannels != 0 || dtvTv != null) Assert.AreEqual(exp.DtvChannels, dtvTv.Channels.Count, file + ": DTV"); if (exp.SatChannels != 0 || satTv != null) Assert.AreEqual(exp.SatChannels, satTv.Channels.Count, file + ": Sat"); } } catch (Exception ex) { errors.AppendLine(); errors.AppendLine(); errors.AppendLine(file); errors.AppendLine(ex.ToString()); } } foreach (var model in models.OrderBy(e => e.Key)) Debug.WriteLine(model.Value); if (expectedData.Count > 0) Assert.Fail("Some files were not tested: " + expectedData.Keys.Aggregate((prev, cur) => prev + "," + cur)); Assert.AreEqual("", errors.ToString()); } private string GetSamsungModel(string filePath) { string fileName = Path.GetFileNameWithoutExtension(filePath) ?? ""; return fileName.StartsWith("channel_list_") ? fileName.Substring(13, fileName.IndexOf('_', 14) - 13) : fileName; } #endregion #region TestDeletingSatChannel [TestMethod] public void TestDeletingSatChannel() { var tempFile = TestUtils.DeploymentItem("Test.Loader.Samsung\\Scm\\TestFiles\\channel_list_T_J_ohne_smart_12.scm"); var plugin = new SamsungPlugin(); var ser = plugin.CreateSerializer(tempFile); ser.Load(); var data = ser.DataRoot; data.ValidateAfterLoad(); data.ApplyCurrentProgramNumbers(); // Pr# 122 = ORF2W HD var dvbs = data.GetChannelList(SignalSource.DvbS); var orf2w = dvbs.Channels.FirstOrDefault(ch => ch.Name == "ORF2W HD"); Assert.AreEqual(122, orf2w.OldProgramNr); Assert.AreEqual(122, orf2w.NewProgramNr); Assert.IsFalse(orf2w.IsDeleted); orf2w.NewProgramNr = -1; data.AssignNumbersToUnsortedAndDeletedChannels(UnsortedChannelMode.Delete); Assert.IsTrue(orf2w.IsDeleted); Assert.AreNotEqual(-1, orf2w.NewProgramNr); Assert.AreEqual(0, dvbs.Channels.Count(ch => ch.NewProgramNr <= 0)); // save and reload ser.Save(); ser = plugin.CreateSerializer(tempFile); ser.Load(); data = ser.DataRoot; data.ValidateAfterLoad(); data.ApplyCurrentProgramNumbers(); dvbs = data.GetChannelList(SignalSource.DvbS); orf2w = dvbs.Channels.FirstOrDefault(ch => ch.Name == "ORF2W HD"); // For .scm sat-channels, there is no known "IsDeleted" flag. Instead, the "IsUsed" flag is set to false when saving a channel with IsDeleted==true // When loading the file back, it can no longer be distinguished between a garbage record and a deleted record. The loader doesn't add IsUsed=false channels to the list Assert.IsNull(orf2w); //Assert.IsTrue(orf2w.IsDeleted); //Assert.AreEqual(-1, orf2w.OldProgramNr); } #endregion #region TestDeletingCableChannel [TestMethod] public void TestDeletingCableChannel() { var tempFile = TestUtils.DeploymentItem("Test.Loader.Samsung\\Scm\\TestFiles\\Samsung_upcmini_EF_12.scm"); var plugin = new SamsungPlugin(); var ser = plugin.CreateSerializer(tempFile); ser.Load(); var data = ser.DataRoot; data.ValidateAfterLoad(); data.ApplyCurrentProgramNumbers(); // Pr# 2 = ORF 2 Wien HD var dvbc = data.GetChannelList(SignalSource.DvbC); var orf2w = dvbc.Channels.FirstOrDefault(ch => ch.Name == "ORF 2 Wien HD"); Assert.IsNotNull(orf2w); Assert.AreEqual(2, orf2w.OldProgramNr); Assert.AreEqual(2, orf2w.NewProgramNr); Assert.IsFalse(orf2w.IsDeleted); orf2w.NewProgramNr = -1; data.AssignNumbersToUnsortedAndDeletedChannels(UnsortedChannelMode.Delete); Assert.IsTrue(orf2w.IsDeleted); Assert.AreNotEqual(-1, orf2w.NewProgramNr); Assert.AreEqual(0, dvbc.Channels.Count(ch => ch.NewProgramNr <= 0)); // save and reload ser.Save(); ser = plugin.CreateSerializer(tempFile); ser.Load(); data = ser.DataRoot; data.ValidateAfterLoad(); data.ApplyCurrentProgramNumbers(); dvbc = data.GetChannelList(SignalSource.DvbC); orf2w = dvbc.Channels.FirstOrDefault(ch => ch.Name == "ORF 2 Wien HD"); // For .scm sat-channels, there is no known "IsDeleted" flag. Instead, the "IsUsed" flag is set to false when saving a channel with IsDeleted==true // When loading the file back, it can no longer be distinguished between a garbage record and a deleted record. The loader doesn't add IsUsed=false channels to the list Assert.IsNotNull(orf2w); Assert.IsTrue(orf2w.IsDeleted); Assert.AreEqual(-1, orf2w.OldProgramNr); } #endregion #region TestChannelAndFavListEditing [TestMethod] public void TestChannelAndFavListEditing() { var tempFile = TestUtils.DeploymentItem("Test.Loader.Samsung\\Scm\\TestFiles\\Channel_list_T_J_ohne_smart_12.scm"); RoundtripTest.TestChannelAndFavListEditing(tempFile, new SamsungPlugin()); } #endregion } }