Example #1
0
        public void ImportParticpantsWithClassAssignment()
        {
            string dbFilename = TestUtilities.CreateWorkingFileFrom(testContextInstance.TestDeploymentDir, @"TestDB_EmptyManyClasses.mdb");

            RaceHorologyLib.Database db = new RaceHorologyLib.Database();
            db.Connect(dbFilename);
            AppDataModel dm = new AppDataModel(db);

            var ir = new ImportReader(@"Teilnehmer_V1_202001301844.csv");

            RaceMapping mapping = new RaceMapping(ir.Columns);

            ClassAssignment cla    = new ClassAssignment(dm.GetParticipantClasses());
            RaceImport      im     = new RaceImport(dm.GetRace(0), mapping, cla);
            var             impRes = im.DoImport(ir.Data);

            Assert.AreEqual(153, impRes.SuccessCount);
            Assert.AreEqual(0, impRes.ErrorCount);

            for (int i = 0; i < 153; i++)
            {
                Participant     p  = dm.GetParticipants()[i];
                RaceParticipant rp = dm.GetRace(0).GetParticipants()[i];

                Assert.AreEqual(string.Format("Name {0}", i + 1), p.Name);
                Assert.AreEqual(string.Format("Name {0}", i + 1), rp.Name);
                Assert.IsTrue(rp.Participant == p);
                Assert.AreSame(cla.DetermineClass(p), p.Class);
                Assert.IsNotNull(p.Class);
            }
        }
Example #2
0
        public void ImportParticpants()
        {
            TestDataGenerator tg = new TestDataGenerator();

            var ir = new ImportReader(@"Teilnehmer_V1_202001301844.csv");

            ParticipantMapping mapping = new ParticipantMapping(ir.Columns);

            List <Participant> participants = new List <Participant>();
            ParticipantImport  im           = new ParticipantImport(participants, mapping, tg.createCategories());
            var impRes = im.DoImport(ir.Data);

            Assert.AreEqual(153, impRes.SuccessCount);
            Assert.AreEqual(0, impRes.ErrorCount);

            for (int i = 0; i < 153; i++)
            {
                Assert.AreEqual(string.Format("Name {0}", i + 1), participants[i].Name);
                Assert.IsNull(participants[i].Class);
            }

            Assert.AreEqual('W', participants[0].Sex.Name);
            Assert.AreEqual('W', participants[1].Sex.Name);
            Assert.AreEqual('M', participants[2].Sex.Name);
            Assert.AreEqual('M', participants[3].Sex.Name);

            // Check synonyms
            Assert.AreEqual('M', participants[4].Sex.Name);  //h
            Assert.AreEqual('M', participants[6].Sex.Name);  //H
            Assert.AreEqual('M', participants[7].Sex.Name);  //x
            Assert.AreEqual('M', participants[10].Sex.Name); //X
        }
Example #3
0
        /// <summary>
        /// Checks an import list against the configured ordering and spacing.
        /// </summary>
        /// <param name="holder">The import list container - either a file, or a namespace
        /// declaration block.</param>
        /// <param name="highlights">If the import does not meet the configured requirements,
        /// we allocate a list containing a highlight describing the problem and return
        /// it via this argument. (We allocate the list on demand to avoid allocations
        /// in the happy path in which all the import lists are correctly ordered and
        /// spaced.)</param>
        private void CheckImports(
            ICSharpTypeAndNamespaceHolderDeclaration holder, ref List <HighlightingInfo> highlights)
        {
            List <UsingDirectiveOrSpace>  items = ImportReader.ReadImports(holder);
            List <UsingDirective>         imports;
            List <List <UsingDirective> > requiredOrderByGroups;

            ImportInspector.FlattenImportsAndDetermineOrderAndSpacing(
                _config, items, out imports, out requiredOrderByGroups);

            bool orderIsCorrect = true;

            if (requiredOrderByGroups != null)
            {
                Relocation nextChange = ImportInspector.GetNextUsingToMove(requiredOrderByGroups, imports);
                if (nextChange != null)
                {
                    orderIsCorrect = false;
                    AddHighlight(holder, ref highlights, new UsingOrderHighlighting(holder, _config));
                }
            }

            // If (and only if) the order is correct, we go on to check the spacing.
            if (orderIsCorrect)
            {
                SpaceChange nextChange = ImportInspector.GetNextSpacingModification(requiredOrderByGroups, items);
                if (nextChange != null)
                {
                    AddHighlight(holder, ref highlights, new UsingSpacingHighlighting(holder, _config));
                }
            }
        }
Example #4
0
        public void ImportParticpantsForRaceWithPoints()
        {
            TestDataGenerator tg = new TestDataGenerator();

            var ir = new ImportReader(@"Teilnehmer_Import_Race.xlsx");

            RaceMapping mapping = new RaceMapping(ir.Columns);

            RaceImport im     = new RaceImport(tg.Model.GetRace(0), mapping);
            var        impRes = im.DoImport(ir.Data);

            Assert.AreEqual(20, impRes.SuccessCount);
            Assert.AreEqual(0, impRes.ErrorCount);

            for (int i = 0; i < 20; i++)
            {
                Participant     p  = tg.Model.GetParticipants()[i];
                RaceParticipant rp = tg.Model.GetRace(0).GetParticipants()[i];

                Assert.AreEqual(string.Format("Name {0}", i + 1), p.Name);

                Assert.AreEqual(string.Format("Name {0}", i + 1), rp.Name);

                if (i == 0)
                {
                    Assert.AreEqual((double)(1), rp.Points);
                }
                else if (i == 1)
                {
                    Assert.AreEqual((double)(2), rp.Points);
                }
                else if (i == 2)
                {
                    Assert.AreEqual((double)(3.3), rp.Points);
                }
                else if (i == 3)
                {
                    Assert.AreEqual((double)(-1), rp.Points);
                }
                else
                {
                    Assert.AreEqual((double)(i + 1), rp.Points);
                }

                if (i == 3)
                {
                    Assert.AreEqual((uint)(0), rp.StartNumber);
                }
                else
                {
                    Assert.AreEqual((uint)(20 - i), rp.StartNumber);
                }

                Assert.IsTrue(rp.Participant == p);
            }
        }
Example #5
0
        /// <summary>
        /// Fixes the order of the using directives in a given file or namespace block
        /// to match the specified configuration.
        /// </summary>
        /// <param name="holder">The file or namespace block in which to fix the order
        /// of using directives (if any are present).</param>
        /// <param name="configuration">The configuration determining the correct order.</param>
        public static void FixOrder(
            ICSharpTypeAndNamespaceHolderDeclaration holder,
            OrderUsingsConfiguration configuration)
        {
            // The reordering proceeds one item at a time, so we just keep reapplying it
            // until there's nothing left to do.
            // To avoid hanging VS in the event that an error in the logic causes the
            // sequence of modifications not to terminate, we ensure we don't try to
            // apply more changes than there are using directives.
            int tries     = 0;
            int itemCount = 0;

            while (tries == 0 || tries <= itemCount)
            {
                List <UsingDirectiveOrSpace>  items = ImportReader.ReadImports(holder);
                List <UsingDirective>         imports;
                List <List <UsingDirective> > requiredOrderByGroups;
                ImportInspector.FlattenImportsAndDetermineOrderAndSpacing(
                    configuration, items, out imports, out requiredOrderByGroups);

                if (requiredOrderByGroups == null)
                {
                    break;
                }

                itemCount = imports.Count;
                Relocation nextChange = ImportInspector.GetNextUsingToMove(requiredOrderByGroups, imports);
                if (nextChange != null)
                {
                    IUsingDirective toMove = holder.Imports[nextChange.From];
                    IUsingDirective before = holder.Imports[nextChange.To];
                    holder.RemoveImport(toMove);
                    holder.AddImportBefore(toMove, before);
                    tries += 1;
                }
                else
                {
                    break;
                }
            }
        }
        public void ImportRace()
        {
            var    db         = new RaceHorologyLib.Database();
            string dbFilename = db.CreateDatabase("new.mdb");

            db.Connect(dbFilename);

            //RaceHorologyLib.IAppDataModelDataBase db = new RaceHorologyLib.DatabaseDummy("./");

            AppDataModel dm = new AppDataModel(db);

            // Create a Race
            dm.AddRace(new Race.RaceProperties {
                RaceType = Race.ERaceType.GiantSlalom, Runs = 2
            });

            ImportResults impRes = new ImportResults();

            TimeSpan time = TestUtilities.Time(() =>
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.csv");
                RaceMapping mapping = new RaceMapping(ir.Columns);

                RaceImport im = new RaceImport(dm.GetRace(0), mapping);
                impRes        = im.DoImport(ir.Data);
            });

            Assert.AreEqual(153, impRes.SuccessCount);
            Assert.AreEqual(0, impRes.ErrorCount);

            Assert.IsTrue(dm.GetParticipants().Count() == 153);
            Assert.IsTrue(dm.GetRace(0).GetParticipants().Count() == 153);

            TestContext.WriteLine(string.Format("Import took: {0:0.00} sec", time.TotalSeconds));
            Assert.IsTrue(time.TotalSeconds < 4);

            //db.Close();
        }
Example #7
0
        public void ImportParticpantsForRace()
        {
            TestDataGenerator tg = new TestDataGenerator();

            var ir = new ImportReader(@"Teilnehmer_V1_202001301844.csv");

            RaceMapping mapping = new RaceMapping(ir.Columns);

            RaceImport im     = new RaceImport(tg.Model.GetRace(0), mapping);
            var        impRes = im.DoImport(ir.Data);

            Assert.AreEqual(153, impRes.SuccessCount);
            Assert.AreEqual(0, impRes.ErrorCount);

            for (int i = 0; i < 153; i++)
            {
                Participant     p  = tg.Model.GetParticipants()[i];
                RaceParticipant rp = tg.Model.GetRace(0).GetParticipants()[i];

                Assert.AreEqual(string.Format("Name {0}", i + 1), p.Name);
                Assert.AreEqual(string.Format("Name {0}", i + 1), rp.Name);
                Assert.IsTrue(rp.Participant == p);
            }
        }
Example #8
0
        /// <summary>
        /// Fixes the spacing of the using directives in a given file or namespace block
        /// to match the specified configuration. (The directives must already be in
        /// the correct order.)
        /// </summary>
        /// <param name="holder">The file or namespace block in which to fix the spacing
        /// of using directives (if any are present).</param>
        /// <param name="configuration">The configuration determining the correct spacing.</param>
        public static void FixSpacing(
            ICSharpTypeAndNamespaceHolderDeclaration holder,
            OrderUsingsConfiguration configuration)
        {
            // The reordering proceeds one item at a time, so we just keep reapplying it
            // until there's nothing left to do.
            // To avoid hanging VS in the event that an error in the logic causes the
            // sequence of modifications not to terminate, we ensure we don't try to
            // apply more changes than there are either using directives or blank
            // lines in the usings list.
            int tries     = 0;
            int itemCount = 0;

            while (tries == 0 || tries <= itemCount)
            {
                List <UsingDirectiveOrSpace> items = ImportReader.ReadImports(holder);
                if (items == null)
                {
                    return;
                }

                itemCount = items.Count;
                List <UsingDirective>         imports;
                List <List <UsingDirective> > requiredOrderByGroups;
                ImportInspector.FlattenImportsAndDetermineOrderAndSpacing(
                    configuration, items, out imports, out requiredOrderByGroups);

                SpaceChange nextChange = ImportInspector.GetNextSpacingModification(requiredOrderByGroups, items);
                if (nextChange != null)
                {
                    IUsingDirective usingBeforeSpace = holder.Imports[nextChange.Index - 1];
                    if (nextChange.ShouldInsert)
                    {
                        using (WriteLockCookie.Create())
                        {
                            var newLineText = new StringBuffer("\r\n");

                            LeafElementBase newLine = TreeElementFactory.CreateLeafElement(
                                CSharpTokenType.NEW_LINE, newLineText, 0, newLineText.Length);
                            LowLevelModificationUtil.AddChildAfter(usingBeforeSpace, newLine);
                        }
                    }
                    else
                    {
                        var syb = usingBeforeSpace.NextSibling;
                        for (; syb != null && !(syb is IUsingDirective); syb = syb.NextSibling)
                        {
                            if (syb.NodeType == CSharpTokenType.NEW_LINE)
                            {
                                LowLevelModificationUtil.DeleteChild(syb);
                            }
                        }
                    }
                }
                else
                {
                    break;
                }

                tries += 1;
            }
        }
Example #9
0
        public void DetectColumns()
        {
            string[] columnShall =
            {
                "FIS-Code-Nr.",
                "Name",
                "Vorname",
                "Verband",
                "Verein",
                "Jahrgang",
                "Geschlecht",
                "FIS-Distanzpunkte",
                "FIS-Sprintpunkte",
                "Startnummer",
                "Gruppe",
                "DSV-Id",
                "Startpass",
                "Leer",
                "Nation",
                "Transponder",
                "Melder-Name",
                "Melder-Adresse",
                "Melder-Telefon",
                "Melder-Mobil",
                "Melder-Email",
                "Nachname Vorname"
            };

            void checkColumns(List <string> columns)
            {
                for (int i = 0; i < columnShall.Length; i++)
                {
                    Assert.AreEqual(columnShall[i], columns[i]);
                }
            }

            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.xls");
                checkColumns(ir.Columns);
            }
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.xlsx");
                checkColumns(ir.Columns);
            }
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.csv");
                checkColumns(ir.Columns);
            }
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.txt");
                checkColumns(ir.Columns);
            }
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844.tsv");
                checkColumns(ir.Columns);
            }
            {
                var ir = new ImportReader(@"Teilnehmer_V1_202001301844_comma.csv");
                checkColumns(ir.Columns);
            }
        }