public void ParseDate_with_milliseconds() { var parser = new DateTimeFieldParser(); var dt = parser.ParseDate("2001-01-02T03:04:05.245Z"); Assert.AreEqual(new DateTime(2001, 1, 2, 3, 4, 5, 245), dt); }
public void RoundTrip(DateTime dt) { var value = DateTimeFieldParser.ParseDate(DateTimeFieldSerializer.SerializeDate(dt)); Assert.AreEqual(dt, value); Assert.AreEqual(dt.Kind, value.Kind); }
public void ParseYears(int year, int month, int day, int hour, int minute, int second, int milliseconds = 0) { var date = new DateTime(year, month, day, hour, minute, second, milliseconds, DateTimeKind.Utc); var dateTime = DateTimeFieldParser.ParseDate(date.ToString("yyyy-MM-ddTHH:mm:ss.fffZ")); Assert.AreEqual(date, dateTime); Assert.AreEqual(date.Kind, dateTime.Kind); }
public void RoundTripUtcDateTime(int year, int month, int day, int hour, int minute, int second, int milliseconds = 0) { var date = new DateTime(year, month, day, hour, minute, second, milliseconds, DateTimeKind.Utc); var value = DateTimeFieldParser.ParseDate(DateTimeFieldSerializer.SerializeDate(date)); Assert.AreEqual(date, value); Assert.AreEqual(date.Kind, value.Kind); }
public static IEnumerable <Test> ParseYears() { return(parsedDates.Select(pd => { var name = "ParseYears " + pd.Key; Test t = new TestCase(name, () => Assert.AreEqual(pd.Value, DateTimeFieldParser.ParseDate(pd.Key))); return t; })); }
public static void ParseYears(KeyValuePair <string, DateTime> pd) { var name = "ParseYears " + pd.Key; var value = DateTimeFieldParser.ParseDate(pd.Key); Assert.Equal(pd.Value, value); Assert.Equal(pd.Value.Kind, value.Kind); }
public static IEnumerable <Test> RoundTrip() { return(dateTimes.Select(dt => { Test t = new TestCase("RoundTrip " + dt, () => { var value = DateTimeFieldParser.ParseDate(DateTimeFieldSerializer.SerializeDate(dt)); Assert.AreEqual(dt, value); }); return t; })); }
public void RoundTrip(DateTime dt) { var parser = new DateTimeFieldParser(); var serializer = new DateTimeFieldSerializer(); var s = serializer.SerializeDate(dt); Console.WriteLine(s); var value = parser.ParseDate(s); Console.WriteLine(value.ToString("r")); Assert.AreEqual(dt, value); }
public DateFacetingResult ParseDateFacetingNode(XElement node) { var r = new DateFacetingResult(); var dateParser = new DateTimeFieldParser(); var intParser = new IntFieldParser(); foreach (var dateFacetingNode in node.Elements()) { var name = dateFacetingNode.Attribute("name").Value; switch (name) { case "gap": r.Gap = dateFacetingNode.Value; break; case "end": r.End = (DateTime)dateParser.Parse(dateFacetingNode, typeof(DateTime)); break; default: // Temp fix to support Solr 3.1, which has added a new element <date name="start">...</date> // not seen in Solr 1.4 to the facet date response – just ignore this element. if (dateFacetingNode.Name != "int") { break; } var count = (int)intParser.Parse(dateFacetingNode, typeof(int)); if (name == FacetDateOther.After.ToString()) { r.OtherResults[FacetDateOther.After] = count; } else if (name == FacetDateOther.Before.ToString()) { r.OtherResults[FacetDateOther.Before] = count; } else if (name == FacetDateOther.Between.ToString()) { r.OtherResults[FacetDateOther.Between] = count; } else { var d = dateParser.ParseDate(name); r.DateResults.Add(KV(d, count)); } break; } } return(r); }
public DateFacetingResult ParseDateFacetingNode(XElement node) { var r = new DateFacetingResult(); var dateParser = new DateTimeFieldParser(); var intParser = new IntFieldParser(); foreach (var dateFacetingNode in node.Elements()) { var name = dateFacetingNode.Attribute("name").Value; switch (name) { case "gap": r.Gap = dateFacetingNode.Value; break; case "end": r.End = (DateTime)dateParser.Parse(dateFacetingNode, typeof(DateTime)); break; default: var count = (int)intParser.Parse(dateFacetingNode, typeof(int)); if (name == FacetDateOther.After.ToString()) { r.OtherResults[FacetDateOther.After] = count; } else if (name == FacetDateOther.Before.ToString()) { r.OtherResults[FacetDateOther.Before] = count; } else if (name == FacetDateOther.Between.ToString()) { r.OtherResults[FacetDateOther.Between] = count; } else { var d = dateParser.ParseDate(name); r.DateResults.Add(KV(d, count)); } break; } } return(r); }
public static void ParseYearsTest(KeyValuePair <string, DateTime> pd) { Assert.AreEqual(pd.Value, DateTimeFieldParser.ParseDate(pd.Key)); Assert.AreEqual(pd.Value.Kind, pd.Value.Kind); }
public void ParseDate_without_milliseconds() { var dt = DateTimeFieldParser.ParseDate("2001-01-02T03:04:05Z"); Assert.AreEqual(new DateTime(2001, 1, 2, 3, 4, 5), dt); }
public void ParseYears(string d, DateTime dt) { var p = new DateTimeFieldParser(); Assert.AreEqual(dt, p.ParseDate(d)); }