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b4f8f621ca
Author | SHA1 | Date |
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Tim Van Baak | b4f8f621ca | |
Tim Van Baak | ffe164975b |
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@ -19,7 +19,7 @@ public class OrderRegex(World world)
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public string FullLocation => $"(?:{Timeline}-)?{world.Map.ProvinceRegex}(?:{SlashLocation}|{ParenLocation})?(?:@{Turn})?";
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public string FullLocation => $"(?:{Timeline}-)?{world.Map.ProvinceRegex}(?:{SlashLocation}|{ParenLocation})?(?:@{Turn})?";
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public string UnitSpec => $"(?:(?:{world.Map.PowerRegex} )?{Type} )?{FullLocation}";
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public string UnitSpec => $"(?:{Type} )?{FullLocation}";
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public const string HoldVerb = "(h|hold|holds)";
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public const string HoldVerb = "(h|hold|holds)";
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@ -27,59 +27,59 @@ public class OrderRegex(World world)
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public const string ViaConvoy = "(convoy|via convoy|by convoy)";
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public const string ViaConvoy = "(convoy|via convoy|by convoy)";
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public Regex Hold => new($"^{Unit} {HoldVerb}$");
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public Regex Hold => new(
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$"^{UnitSpec} {HoldVerb}$",
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RegexOptions.IgnoreCase);
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public static (
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public static (
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string power,
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string type,
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string type,
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string timeline,
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string timeline,
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string province,
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string province,
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string location,
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string location,
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string turn,
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string turn,
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string verb)
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string holdVerb)
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ParseHold(Match match)
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ParseHold(Match match) => (
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=> (match.Groups[1].Value,
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match.Groups[1].Value,
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match.Groups[2].Value,
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match.Groups[2].Value,
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match.Groups[3].Value,
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match.Groups[3].Value,
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match.Groups[4].Value,
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match.Groups[4].Length > 0
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match.Groups[5].Length > 0
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? match.Groups[4].Value
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? match.Groups[5].Value
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: match.Groups[5].Value,
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: match.Groups[6].Value,
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match.Groups[6].Value,
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match.Groups[7].Value,
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match.Groups[7].Value);
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match.Groups[8].Value);
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public Regex Move => new($"^{UnitSpec} {MoveVerb} {FullLocation}$(?: {ViaConvoy})?");
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public Regex Move => new(
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$"^{UnitSpec} {MoveVerb} {FullLocation}(?: {ViaConvoy})?$",
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RegexOptions.IgnoreCase);
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public static (
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public static (
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string power,
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string type,
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string type,
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string timeline,
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string timeline,
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string province,
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string province,
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string location,
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string location,
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string turn,
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string turn,
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string verb,
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string moveVerb,
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string timeline2,
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string destTimeline,
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string province2,
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string destProvince,
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string location2,
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string destLocation,
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string turn2,
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string destTurn,
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string viaConvoy)
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string viaConvoy)
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ParseMove(Match match)
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ParseMove(Match match) => (
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=> (match.Groups[1].Value,
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match.Groups[1].Value,
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match.Groups[2].Value,
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match.Groups[2].Value,
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match.Groups[3].Value,
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match.Groups[3].Value,
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match.Groups[4].Value,
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match.Groups[4].Length > 0
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match.Groups[5].Length > 0
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? match.Groups[4].Value
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? match.Groups[5].Value
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: match.Groups[5].Value,
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: match.Groups[6].Value,
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match.Groups[6].Value,
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match.Groups[7].Value,
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match.Groups[7].Value,
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match.Groups[8].Value,
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match.Groups[8].Value,
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match.Groups[9].Value,
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match.Groups[9].Value,
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match.Groups[10].Value,
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match.Groups[10].Length > 0
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match.Groups[11].Length > 1
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? match.Groups[10].Value
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? match.Groups[11].Value
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: match.Groups[11].Value,
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: match.Groups[12].Value,
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match.Groups[12].Value,
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match.Groups[13].Value,
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match.Groups[13].Value);
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match.Groups[14].Value);
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public static bool TryParseUnit(World world, string unitSpec, [NotNullWhen(true)] out Unit? newUnit)
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public static bool TryParseUnit(World world, string unitSpec, [NotNullWhen(true)] out Unit? newUnit)
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{
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{
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@ -1,5 +1,3 @@
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using System.Text.RegularExpressions;
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using NUnit.Framework;
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using NUnit.Framework;
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using MultiversalDiplomacy.Model;
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using MultiversalDiplomacy.Model;
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@ -8,62 +6,96 @@ namespace MultiversalDiplomacyTests;
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public class RegexTest
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public class RegexTest
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{
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{
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[Test]
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private static TestCaseData Test(string order, params string[] expected)
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public void UnitTokenizer()
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=> new TestCaseData(order, expected).SetName($"{{m}}(\"{order}\")");
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static IEnumerable<TestCaseData> HoldRegexMatchesTestCases()
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{
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{
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World world = World.WithStandardMap();
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// Full specification
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OrderRegex re = new(world);
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yield return Test(
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"Army a-Munich/l@0 holds",
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"Army", "a", "Munich", "l", "0", "holds");
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// Case insensitivity
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yield return Test(
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"fleet B-lon/C@0 H",
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"fleet", "B", "lon", "C", "0", "H");
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// All optionals missing
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yield return Test(
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"ROM h",
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"", "", "ROM", "", "", "h");
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// No confusion of unit type and timeline
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yield return Test(
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"A F-STP hold",
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"A", "F", "STP", "", "", "hold");
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// Province with space in name
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yield return Test(
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"Fleet North Sea Hold",
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"Fleet", "", "North Sea", "", "", "Hold");
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// Parenthesis location
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yield return Test(
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"F Spain(nc) holds",
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"F", "", "Spain", "nc", "", "holds");
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}
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var match = re.Hold.Match("Germany Army a-Munich/l@0 holds");
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[TestCaseSource(nameof(HoldRegexMatchesTestCases))]
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Assert.That(match.Success, Is.True);
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public void HoldRegexMatches(string order, string[] expected)
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var hold = OrderRegex.ParseHold(match);
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{
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Assert.That(hold.power, Is.EqualTo("Germany"));
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OrderRegex re = new(World.WithStandardMap());
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Assert.That(hold.type, Is.EqualTo("Army"));
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var match = re.Hold.Match(order);
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Assert.That(hold.timeline, Is.EqualTo("a"));
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Assert.True(match.Success, "Match failed");
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Assert.That(hold.province, Is.EqualTo("Munich"));
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var (type, timeline, province, location, turn, holdVerb) = OrderRegex.ParseHold(match);
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Assert.That(hold.location, Is.EqualTo("l"));
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string[] actual = [type, timeline, province, location, turn, holdVerb];
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Assert.That(hold.turn, Is.EqualTo("0"));
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// Use EquivalentTo for more detailed error message
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Assert.That(hold.verb, Is.EqualTo("holds"));
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Assert.That(actual, Is.EquivalentTo(expected), "Unexpected parse results");
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Assert.That(actual, Is.EqualTo(expected), "Unexpected parse results");
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}
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match = re.Hold.Match("F Venice hold");
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static IEnumerable<TestCaseData> MoveRegexMatchesTestCases()
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Assert.That(match.Success, Is.True);
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{
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hold = OrderRegex.ParseHold(match);
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static TestCaseData Test(string order, params string[] expected)
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Assert.That(hold.power, Is.EqualTo(""));
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=> new TestCaseData(order, expected).SetName($"{{m}}(\"{order}\")");
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Assert.That(hold.type, Is.EqualTo("F"));
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// Full specification
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Assert.That(hold.timeline, Is.EqualTo(""));
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yield return Test(
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Assert.That(hold.province, Is.EqualTo("Venice"));
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"Army a-Munich/l@0 - a-Tyrolia/l@0",
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Assert.That(hold.location, Is.EqualTo(""));
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"Army", "a", "Munich", "l", "0", "-", "a", "Tyrolia", "l", "0", "");
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Assert.That(hold.turn, Is.EqualTo(""));
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// Case insensitivity
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Assert.That(hold.verb, Is.EqualTo("hold"));
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yield return Test(
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"fleet B-lon/C@0 - B-enc/W@0",
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"fleet", "B", "lon", "C", "0", "-", "B", "enc", "W", "0", "");
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// All optionals missing
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yield return Test(
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"ROM - VIE",
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"", "", "ROM", "", "", "-", "", "VIE", "", "", "");
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// No confusion of unit type and timeline
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yield return Test(
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"A F-STP - MOS",
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"A", "F", "STP", "", "", "-", "", "MOS", "", "", "");
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// Elements with spaces
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yield return Test(
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"Fleet Western Mediterranean Sea moves to Gulf of Lyons via convoy",
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"Fleet", "", "Western Mediterranean Sea", "", "", "moves to", "", "Gulf of Lyons", "", "", "via convoy");
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// Parenthesis location
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yield return Test(
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"F Spain(nc) - Spain(sc)",
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"F", "", "Spain", "nc", "", "-", "", "Spain", "sc", "", "");
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// Timeline designation spells out a province
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yield return Test(
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"A tyr-MUN(vie) - mun-TYR/vie",
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"A", "tyr", "MUN", "vie", "", "-", "mun", "TYR", "vie", "", "");
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}
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match = re.Move.Match("F Gascony - Spain(nc)");
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[TestCaseSource(nameof(MoveRegexMatchesTestCases))]
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Assert.That(match.Success, Is.True);
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public void MoveRegexMatches(string order, string[] expected)
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var move = OrderRegex.ParseMove(match);
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{
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Assert.That(move.power, Is.EqualTo(""));
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OrderRegex re = new(World.WithStandardMap());
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Assert.That(move.type, Is.EqualTo("F"));
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var match = re.Move.Match(order);
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Assert.That(move.timeline, Is.EqualTo(""));
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Assert.True(match.Success, "Match failed");
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Assert.That(move.province, Is.EqualTo("Gascony"));
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var (type, timeline, province, location, turn, moveVerb,
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Assert.That(move.location, Is.EqualTo(""));
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destTimeline, destProvince, destLocation, destTurn, viaConvoy) = OrderRegex.ParseMove(match);
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Assert.That(move.turn, Is.EqualTo(""));
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string[] actual = [type, timeline, province, location, turn, moveVerb,
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Assert.That(move.verb, Is.EqualTo("-"));
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destTimeline, destProvince, destLocation, destTurn, viaConvoy];
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Assert.That(move.timeline2, Is.EqualTo(""));
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// Use EquivalentTo for more detailed error message
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Assert.That(move.province2, Is.EqualTo("Spain"));
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Assert.That(actual, Is.EquivalentTo(expected), "Unexpected parse results");
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Assert.That(move.location2, Is.EqualTo("nc"));
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Assert.That(actual, Is.EqualTo(expected), "Unexpected parse results");
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Assert.That(move.turn2, Is.EqualTo(""));
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match = re.Move.Match("F North Sea - Picardy");
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Assert.That(match.Success, Is.True);
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move = OrderRegex.ParseMove(match);
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Assert.That(move.power, Is.EqualTo(""));
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Assert.That(move.type, Is.EqualTo("F"));
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Assert.That(move.timeline, Is.EqualTo(""));
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Assert.That(move.province, Is.EqualTo("North Sea"));
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Assert.That(move.location, Is.EqualTo(""));
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Assert.That(move.turn, Is.EqualTo(""));
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Assert.That(move.verb, Is.EqualTo("-"));
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Assert.That(move.timeline2, Is.EqualTo(""));
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Assert.That(move.province2, Is.EqualTo("Picardy"));
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Assert.That(move.location2, Is.EqualTo(""));
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Assert.That(move.turn2, Is.EqualTo(""));
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}
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}
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}
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}
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