/// <summary>
/// Broadcast an shape against an other new shape.
/// </summary>
/// <param name="from">The shape that is to be broadcasted</param>
/// <param name="against">The shape that'll be used to broadcast <paramref name="from"/> shape</param>
/// <returns>A readonly view on the original array with the given shape. It is typically not contiguous. Furthermore, more than one element of a broadcasted array may refer to a single memory location.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_to.html</remarks>
public static Shape broadcast_to(Shape from, NDArray against)
{
return(DefaultEngine.Broadcast(from, against.Shape).LeftShape);
}
private void DoNewGame(string fen, GameMode gameMode, GameType gameType, OptionsBlitzClock blitzClock, OptionsLongClock longClock)
{
NewGameEventArgs args = new NewGameEventArgs();
if (BeforeNewGame != null)
{
BeforeNewGame(this, args);
}
if (args.Cancel)
{
return;
}
if (SaveDocking != null)
{
SaveDocking(this, EventArgs.Empty);
}
GameStartTimeLocal = DateTime.Now;
Ap.Options.CurrentGameGuid = string.Empty;
Stop();
InitialBoardFen = fen;
PreviousGameMode = GameMode;
PreviousPonderMove = string.Empty;
GameMode = gameMode;
GameType = gameType;
#region Init
//GameValidator = new GameW(this.InitialBoardFen);
GameValidator.SetFen(this.InitialBoardFen);
SpaceBarCounter = 0;
CloseEngines();
if (GameType == GameType.Long)
{
GameTime.Init(longClock, true);
}
else
{
GameTime.Init(blitzClock, true);
}
if (Flags.IsBookLoadRequired)
{
Book.Load(null);
}
GameResult = GameResultE.InProgress;
Reset();
if (DbGame != null && DbGame.IsFinished)
{
this.GameResult = DbGame.GameResultIDE;
this.Flags.SetFlags(DbGame.GameFlags);
}
CurrentMove = RootMove.Clone();
Moves.Clear();
CurrentLine = null;
#endregion
#region Switch GameMode
switch (GameMode)
{
case GameMode.None:
break;
case GameMode.HumanVsHuman:
#region HumanVsHuman
GameTime.TimeMin = 0;
GameTime.GainPerMove = 0;
Player1.Engine = null;
Player2.Engine = null;
Player2.Book = Book;
Player1.PlayerTitle = Ap.UserProfile.LastName;
Player2.PlayerTitle = "InfinityChess";
GameData.SetPlayers(Player1.PlayerTitle, Ap.UserProfile.FirstName, Player2.PlayerTitle, "");
gameTypeTitle = Ap.GetGameTypeTitle(GameType);
#endregion
break;
case GameMode.HumanVsEngine:
#region HumanVsEngine
Player2EngineFileName = InfinitySettings.Settings.DefaultEngineXml.FilePath;
Player1.Engine = null;
if (DefaultEngine == null)
{
Player2.Engine = UCIEngine.Load(Player2EngineFileName, Options.DefaultHashTableSize, this);
Player2.Engine.UseTablebases = Ap.EngineOptions.UseTablebases;
DefaultEngine = Player2.Engine;
}
else
{
Player2.Engine = DefaultEngine;
}
Player2.Book = Book;
DefaultBook = Player2.Book;
Player1.PlayerTitle = Ap.UserProfile.LastName;
Player2.PlayerTitle = Player2.Engine.EngineName;
GameData.SetPlayers(Player1.PlayerTitle, Ap.UserProfile.FirstName, Player2.PlayerTitle, "");
gameTypeTitle = Ap.GetGameTypeTitle(GameType);
#endregion
break;
case GameMode.EngineVsEngine:
#region EngineVsEngine
Player1.Engine = UCIEngine.Load(Player1EngineFileName, Player1EngineHashTableSize, this);
Player1.Engine.UseTablebases = Ap.EngineOptions.UseTablebases;
Player2.Engine = UCIEngine.Load(Player2EngineFileName, Player2EngineHashTableSize, this);
Player2.Engine.UseTablebases = Ap.EngineOptions.UseTablebases;
Player1.PlayerTitle = Player1.Engine.EngineName;
Player2.PlayerTitle = Player2.Engine.EngineName;
if (Player1.Book != null)
{
Player1.Book.NewGame();
}
if (Player2.Book != null)
{
Player2.Book.NewGame();
}
GameData.SetPlayers(Player1.PlayerTitle, "", Player2.PlayerTitle, "");
gameTypeTitle = Ap.GetGameTypeTitle(GameType);
InitE2eResult();
#endregion
break;
case GameMode.OnlineHumanVsHuman:
#region OnlineHumanVsHuman
StartOnlineH2HGame();
#endregion
break;
case GameMode.OnlineHumanVsEngine:
#region OnlineHumanVsEngine
gameTypeTitle = Ap.GetGameTypeTitle(GameType);
#endregion
break;
case GameMode.OnlineEngineVsEngine:
#region OnlineEngineVsEngine
if (Ap.PlayingMode.SelectedEngine == null)
{
StartOnlineH2HGame();
}
else
{
StartOnlineE2EGame();
}
#endregion
break;
case GameMode.Kibitzer:
#region Kibitzer
GameTime.Set(DbGame);
GameResult = DbGame.GameResultIDE;
Player1.PlayerTitle = DbGame.WhiteUser.UserName + " " + DbGame.WhiteUser.Engine.Name;
Player2.PlayerTitle = DbGame.BlackUser.UserName + " " + DbGame.BlackUser.Engine.Name;
if (DbGame.IsRated)
{
gameTypeTitle = GameType.ToString() + " " + DbGame.TimeMin.ToString() + "' + " + DbGame.GainPerMoveMin.ToString() + "'', " + "Rated";
if (DbGame.EloBlackBefore != 0 && !DbGame.BlackUser.IsGuest)
{
Player2.PlayerTitle += " " + DbGame.EloBlackBefore.ToString();
}
if (DbGame.EloWhiteBefore != 0 && !DbGame.WhiteUser.IsGuest)
{
Player1.PlayerTitle += " " + DbGame.EloWhiteBefore.ToString();
}
}
else
{
gameTypeTitle = GameType.ToString() + " " + DbGame.TimeMin.ToString() + "' + " + DbGame.GainPerMoveMin.ToString() + "'', " + "Unrated";
}
GameData.SetPlayers(Player1.PlayerTitle, "", Player2.PlayerTitle, "");
#endregion
break;
default:
break;
}
#endregion
if (DefaultEngine != null)
{
if (DefaultEngine.IsClosed)
{
DefaultEngine.Load();
}
}
Flags.IsEngineBlack = true;
#region Start
Clock.NewGame();
Notations.NewGame();
if (Flags.IsBookLoadRequired)
{
Book.NewGame();
}
CapturedPieces.NewGame();
GameData.NewGame();
Clipboard.Reset();
GameData.Tournament = GameTypeTitle;
Ap.Options.GameType = gameType;
Ap.Options.Save();
#endregion
if (CreateDocking != null)
{
CreateDocking(this, EventArgs.Empty);
}
Flags.IsInfiniteAnalysisOn = false;
MediaPlayer.PlaySound(SoundFileNameE.SetPieces);
SetFen(fen);
Flags.IsBoardSetByFen = fen != ChessLibrary.FenParser.InitialBoardFen;
if (Flags.IsOnline && DbGame != null)
{
Flags.IsChallengerSendsGame = DbGame.IsChallengerSendsGame;
}
SetSuddenDeathMatchTime();
if (AfterNewGame != null)
{
AfterNewGame(this, EventArgs.Empty);
}
}
private static void StartDefault()
{
if (CertificateUtil.FindRootCertificate() == default)
{
CertificateUtil.InstallNewRootCertificate();
}
//CertificateUtil.UninstallRootCertificates();
//CertificateUtil.UninstallAllServerCertificatesByIssuer();
//var ca = CertificateUtil.FindRootCertificate();
//CertificateUtil.UninstallFromRootStore(ca);
var engine = DefaultEngine.Create(new ListeningConfig(8080));
engine.DecryptConfig.IsDecrypt = true;
//engine.DecryptConfig.HostFilterHandler = host
// => host.EndsWith("cat-ears.net");
// engine.DecryptConfig.RootCertificateResolver = store => store.FindRootCertificate("Titanium Root Certificate Authority");
engine.DecryptConfig.CacheLocations
= new[] { // 定義順が読み取り優先順
CertificateCacheLocation.Memory,
CertificateCacheLocation.Custom,
CertificateCacheLocation.Store,
};
engine.DecryptConfig.ServerCertificateCacheResolver = host =>
{
Console.WriteLine($"### ServerCertificateCacheResolver: {host}");
return(null);
//var path = host.Replace("*", "$x$") + ".pfx";
//if (!File.Exists(path)) return null;
//var bytes = File.ReadAllBytes(path);
//return new X509Certificate2(bytes);
};
engine.ServerCertificateCreated += (_, c) =>
{
Console.WriteLine($"### ServerCertificateCreated: {c.Certificate.Subject}");
//var path = c.Certificate.Subject.Replace("CN=", "").Replace("*", "$x$") + ".pfx";
//if (!File.Exists(path))
// File.WriteAllBytes(path, c.Certificate.RawData);
};
engine.UpstreamProxyConfig = null;
engine.ConnectionAdded += (_, c) => Console.WriteLine($"### Connection Added. Connections Count: {c.Count}");
engine.ConnectionRemoved += (_, c) => Console.WriteLine($"### Connection Removed. Connections Count: {c.Count}");
var proxy = HttpProxyFactory.Create(engine);
proxy.FatalException += (_, e) => Console.WriteLine(e.Exception);
proxy.HttpResponseSent += (_, s) =>
{
if (IsOutputHeaders(s.Session))
{
Console.WriteLine($"{s.Session.GetHost()}: {s.Session.Request}\r\n" +
$"{s.Session.Response.StatusLine }{s.Session.Response.Headers}");
}
else if (s.Session.Request.RequestLine.Method.Method != "CONNECT")
{
Console.WriteLine($"{s.Session.GetHost()}: {s.Session.Request.RequestLine}" +
$"{s.Session.Response.StatusLine}");
}
};
proxy.ClientWebSocketMessageSent += (_, m) =>
{
var host = m.Message.HandshakeSession.GetHost();
if (m.Message.Opcode == WebSocketOpcode.Text)
{
Console.WriteLine(
$@"ClientWebSocketMessage: {host}
Text: {Encoding.UTF8.GetString(m.Message.PayloadData.ToArray())}");
}
else
{
// Console.WriteLine(
//$@"ClientWebSocketMessage: {host}
//{m.Message.Opcode}: {m.Message.PayloadData.Count} bytes.");
}
};
proxy.ServerWebSocketMessageSent += (_, m) =>
{
var host = m.Message.HandshakeSession.GetHost();
if (m.Message.Opcode == WebSocketOpcode.Text)
{
Console.WriteLine(
$@"ServerWebSocketMessage: {host}
Text: {Encoding.UTF8.GetString(m.Message.PayloadData.ToArray())}");
}
else
{
// Console.WriteLine(
//$@"ServerWebSocketMessage: {host}
//{m.Message.Opcode}: {m.Message.PayloadData.Count} bytes.");
}
};
try
{
proxy.Start();
while (true)
{
Task.Delay(1000).Wait();
}
}
finally
{
proxy.Stop();
}
}
public SiteBuilderTests(DefaultEngine engine)
{
Fixture = new DefaultFixture(engine);
}
/// <summary>
/// Produce an object that mimics broadcasting.
/// </summary>
/// <returns>Broadcast the input parameters against one another, and return an object that encapsulates the result. Amongst others, it has shape and nd properties, and may be used as an iterator.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast.html</remarks>
public static Broadcast broadcast(NDArray nd1, NDArray nd2)
{
return(new Broadcast {
shape = DefaultEngine.ResolveReturnShape(nd1.Shape, nd2.Shape)
});
}
public ContentBuilderTests(DefaultEngine engine)
{
Fixture = new DefaultFixture(engine);
Resources = new DefaultResources();
}
/// <summary>
/// Produce an object that mimics broadcasting.
/// </summary>
/// <returns>Broadcast the input parameters against one another, and return an object that encapsulates the result. Amongst others, it has shape and nd properties, and may be used as an iterator.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast.html</remarks>
public static Broadcast broadcast(NDArray nd1, NDArray nd2)
{
return(new Broadcast {
shape = DefaultEngine.ResolveReturnShape(nd1.Shape, nd2.Shape), iters = new[] { nd1.AsIterator(), nd2.AsIterator() }
});
}
public void NewGame(string fen, GameMode gameMode, GameType gameType, OptionsBlitzClock blitzClock, OptionsLongClock longClock)
{
Stop();
InitialBoardFen = fen;
GameMode = gameMode;
GameType = gameType;
if (BeforeNewGame != null)
{
BeforeNewGame(this, EventArgs.Empty);
}
#region Init
GameValidator = new GameW(this.InitialBoardFen);
SpaceBarCounter = 0;
CloseEngines();
if (GameType == GameType.LongGame)
{
GameTime.Init(longClock, true);
}
else
{
GameTime.Init(blitzClock, true);
}
GameResult = GameResultE.InProgress;
CurrentMove = null;
Flags.Reset();
#endregion
#region Switch gameMode
switch (GameMode)
{
case GameMode.None:
break;
case GameMode.HumanVsHuman:
Player1.PlayerType = PlayerType.Human;
Player2.PlayerType = PlayerType.Human;
Player1.Engine = null;
Player2.Engine = null;
Player1.PlayerTitle = GameData.WhiteTitle;
Player2.PlayerTitle = GameData.BlackTitle;
break;
case GameMode.HumanVsEngine:
Player1.PlayerType = PlayerType.Human;
Player2.PlayerType = PlayerType.Engine;
Player2EngineFileName = InfinitySettings.Settings.DefaultEngineXml.FilePath;
Player1.Engine = null;
if (DefaultEngine == null)
{
Player2.Engine = UCIEngine.Load(Player2EngineFileName, Options.DefaultHashTableSize);
Player2.Engine.UseTablebases = EngineParameters.UseTablebases;
DefaultEngine = Player2.Engine;
}
else
{
Player2.Engine = DefaultEngine;
}
Player2.Book = Book;
DefaultBook = Player2.Book;
Player1.PlayerTitle = Ap.UserProfile.LastName;
Player2.PlayerTitle = Player2.Engine.EngineName;
break;
case GameMode.EngineVsEngine:
Player1.PlayerType = PlayerType.Engine;
Player2.PlayerType = PlayerType.Engine;
Player1.Engine = UCIEngine.Load(Player1EngineFileName, Player1EngineHashTableSize);
Player1.Engine.UseTablebases = EngineParameters.UseTablebases;
Player2.Engine = UCIEngine.Load(Player2EngineFileName, Player2EngineHashTableSize);
Player2.Engine.UseTablebases = EngineParameters.UseTablebases;
Player1.PlayerTitle = Player1.Engine.EngineName;
Player2.PlayerTitle = Player2.Engine.EngineName;
break;
case GameMode.OnlineHumanVsHuman:
#region OnlineHumanVsHuman
StartOnlineH2HGame();
#endregion
break;
case GameMode.OnlineHumanVsEngine:
break;
case GameMode.OnlineEngineVsEngine:
if (PlayingMode.SelectedEngine == null)
{
StartOnlineH2HGame();
}
else
{
StartOnlineE2EGame();
}
break;
case GameMode.Kibitzer:
#region Kibitzer
GameTime.Set(DbGame);
GameResult = DbGame.GameResultIDE; //GameResultE.InProgress;
Player1.PlayerType = PlayerType.Human;
Player1.PlayerTitle = DbGame.WhiteUser.UserName;
Player2.PlayerType = PlayerType.Human;
Player2.PlayerTitle = DbGame.BlackUser.UserName;
if (DbGame.IsRated)
{
gameTypeTitle = GameType.ToString() + " " + DbGame.TimeMin.ToString() + "m + " + DbGame.GainPerMoveMin.ToString() + "s, " + "Rated";
if (DbGame.EloBlackBefore != 0 && !DbGame.BlackUser.IsGuest)
{
Player2.PlayerTitle += " " + DbGame.EloBlackBefore.ToString();
}
if (DbGame.EloWhiteBefore != 0 && !DbGame.WhiteUser.IsGuest)
{
Player1.PlayerTitle += " " + DbGame.EloWhiteBefore.ToString();
}
}
else
{
gameTypeTitle = GameType.ToString() + " " + DbGame.TimeMin.ToString() + "m + " + DbGame.GainPerMoveMin.ToString() + "s, " + "Unrated";
}
#endregion
break;
default:
break;
}
#endregion
if (DefaultEngine != null)
{
if (DefaultEngine.IsClosed)
{
DefaultEngine.Load();
}
}
Flags.IsEngineBlack = true;
#region Start
gameTypeTitle = Ap.GetGameTypeTitle(GameType);
Player1.Active = true;
Player2.Active = false;
Notations.SetupNewGame();
CapturedPieces.SetupNewGame();
Clock.SetupNewGame();
Book.SetupNewGame();
Clipboard.Reset();
CurrentPlayer = Player1;
GameData.SetupNewGame();
if (Flags.IsChangeNamesAllowed)
{
GameData.White1 = Player1.PlayerTitle;
GameData.White2 = Ap.UserProfile.FirstName;
GameData.Black1 = Player2.PlayerTitle;
}
GameData.Tournament = GameTypeTitle;
InitTablebases();
Ap.Options.GameType = gameType;
Ap.Options.Save();
#endregion
if (CreateDocking != null)
{
CreateDocking(this, EventArgs.Empty);
}
Flags.IsInfiniteAnalysisOn = false;
SetFen(fen);
if (Flags.IsOnline)
{
// Flags.IsChallengerSendsGame = Flags.IsPositionSetupAllowed;
}
if (AfterNewGame != null)
{
AfterNewGame(this, EventArgs.Empty);
}
}
public void basics_broadcasting()
{
(Shape LeftShape, Shape RightShape)ret;
ret = DefaultEngine.Broadcast(new Shape(5, 5), Shape.Scalar);
ret.LeftShape.dimensions.Should().ContainInOrder(5, 5);
ret.RightShape.dimensions.Should().ContainInOrder(5, 5);
ret.RightShape.strides.Should().AllBeEquivalentTo(0);
indexes2(5, 5).Select(i => ret.RightShape.GetOffset(i.i1, i.i2)).Should().AllBeEquivalentTo(0);
indexes2(5, 5).Select(i => ret.LeftShape.GetOffset(i.i1, i.i2))
.Should().BeInAscendingOrder().And.Subject.First().Should().Be(0);
ret = DefaultEngine.Broadcast(Shape.Scalar, new Shape(5, 5));
ret.LeftShape.dimensions.Should().ContainInOrder(5, 5);
ret.RightShape.dimensions.Should().ContainInOrder(5, 5);
ret.LeftShape.strides.Should().AllBeEquivalentTo(0);
indexes2(5, 5).Select(i => ret.LeftShape.GetOffset(i.i1, i.i2)).Should().AllBeEquivalentTo(0);
indexes2(5, 5).Select(i => ret.RightShape.GetOffset(i.i1, i.i2))
.Should().BeInAscendingOrder().And.Subject.First().Should().Be(0);
ret = DefaultEngine.Broadcast(new Shape(5, 5), new Shape(5, 5));
ret.LeftShape.dimensions.Should().ContainInOrder(5, 5);
ret.RightShape.dimensions.Should().ContainInOrder(5, 5);
ret.LeftShape.strides.Should().ContainInOrder(5, 1);
ret.RightShape.strides.Should().ContainInOrder(5, 1);
ret = DefaultEngine.Broadcast(new Shape(5, 5, 3), new Shape(5, 3));
ret.LeftShape.dimensions.Should().ContainInOrder(5, 5, 3);
ret.RightShape.dimensions.Should().ContainInOrder(5, 5, 3);
ret = DefaultEngine.Broadcast(new Shape(256, 256, 3), new Shape(3));
ret.LeftShape.dimensions.Should().ContainInOrder(256, 256, 3);
ret.RightShape.dimensions.Should().ContainInOrder(256, 256, 3);
ret = DefaultEngine.Broadcast(new Shape(8, 1, 6, 1), new Shape(7, 1, 5));
ret.LeftShape.dimensions.Should().ContainInOrder(8, 7, 6, 5);
ret.RightShape.dimensions.Should().ContainInOrder(8, 7, 6, 5);
ret = DefaultEngine.Broadcast(new Shape(5, 4), new Shape(1));
ret.LeftShape.dimensions.Should().ContainInOrder(5, 4);
ret.RightShape.dimensions.Should().ContainInOrder(5, 4);
indexes2(5, 4).Select(i => ret.LeftShape.GetOffset(i.i1, i.i2))
.Should().BeInAscendingOrder().And.Subject.First().Should().Be(0);
indexes2(5, 4).Select(i => ret.RightShape.GetOffset(i.i1, i.i2)).Should().AllBeEquivalentTo(0);
ret = DefaultEngine.Broadcast(new Shape(5, 4), new Shape(4));
ret.LeftShape.dimensions.Should().ContainInOrder(5, 4);
ret.RightShape.dimensions.Should().ContainInOrder(5, 4);
ret = DefaultEngine.Broadcast(new Shape(15, 3, 5), new Shape(15, 1, 5));
ret.LeftShape.dimensions.Should().ContainInOrder(15, 3, 5);
ret.RightShape.dimensions.Should().ContainInOrder(15, 3, 5);
ret = DefaultEngine.Broadcast(new Shape(15, 3, 5), new Shape(3, 1));
ret.LeftShape.dimensions.Should().ContainInOrder(15, 3, 5);
ret.RightShape.dimensions.Should().ContainInOrder(15, 3, 5);
new Action(() => DefaultEngine.ResolveReturnShape(new Shape(3), new Shape(4))).Should().Throw <Exception>();
new Action(() => DefaultEngine.ResolveReturnShape(new Shape(2, 1), new Shape(8, 4, 3))).Should().Throw <Exception>();
}
public FixtureNestedContextTests(DefaultEngine engine)
{
Fixture = new DefaultFixture(engine);
}
public void ChangeUpstreamProxyTest()
{
var server = new TestTcpServer();
var engine = new DefaultEngine(server);
var clientTcp1 = new TestTcpClient();
server.AcceptTcp(clientTcp1);
var connection1 = engine.connections.Last();
connection1.CreateTcpClientForServer = (host, port) => new TestTcpClient(host, port);
engine.UpstreamProxyConfig = new UpstreamProxyConfig("first.example.com", 1);
var tcsRequest1_1 = new TaskCompletionSource <IReadOnlyHttpRequest>();
connection1.HttpRequestSent += r => tcsRequest1_1.TrySetResult(r);
var request =
@"GET / HTTP/1.1
Host: hoge.example.com
";
clientTcp1.WriteToInput(request);
var request1_1 = tcsRequest1_1.GetResult();
var serverTcp1 = connection1.serverConnection.client.AsTest();
serverTcp1.Host.Is("first.example.com");
serverTcp1.Port.Is(1);
// UpstreamProxyConfig 変更
engine.UpstreamProxyConfig = new UpstreamProxyConfig("second.example.com", 2);
var tcsRequest1_2 = new TaskCompletionSource <IReadOnlyHttpRequest>();
connection1.HttpRequestSent += r => tcsRequest1_2.TrySetResult(r);
clientTcp1.WriteToInput(request);
// 接続中のコネクションには反映されない
var request1_2 = tcsRequest1_2.GetResult();
serverTcp1.Host.Is("first.example.com");
serverTcp1.Port.Is(1);
// 次の接続から反映される
var clientTcp2 = new TestTcpClient();
server.AcceptTcp(clientTcp2);
var connection2 = engine.connections.Last();
connection2.CreateTcpClientForServer = (host, port) => new TestTcpClient(host, port);
connection2.HttpRequestSent += r => tcsRequest1_1.TrySetResult(r);
var tcsRequest2 = new TaskCompletionSource <IReadOnlyHttpRequest>();
connection2.HttpRequestSent += r => tcsRequest2.TrySetResult(r);
clientTcp2.WriteToInput(request);
var request2 = tcsRequest2.GetResult();
var serverTcp2 = connection2.serverConnection.client.AsTest();
serverTcp2.Host.Is("second.example.com");
serverTcp2.Port.Is(2);
(engine as IReadOnlyHttpProxyEngine).Stop();
}
/// <summary>
/// Tests if these two two arrays are broadcastable against each other.
/// </summary>
/// <param name="lhs">An array to test for broadcasting.</param>
/// <param name="rhs">An array to test for broadcasting.</param>
/// <returns>True if these can be broadcasted against each other.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_arrays.html</remarks>
public static bool are_broadcastable(NDArray lhs, NDArray rhs)
{
return(DefaultEngine.AreBroadcastable(lhs, rhs));
}
/// <summary>
/// Tests if these two two arrays are broadcastable against each other.
/// </summary>
/// <param name="shapes">The shapes to test for broadcasting.</param>
/// <returns>True if these can be broadcasted against each other.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_arrays.html</remarks>
public static bool are_broadcastable(params int[][] shapes)
{
return(DefaultEngine.AreBroadcastable(shapes));
}
/// <summary>
/// Tests if these two two arrays are broadcastable against each other.
/// </summary>
/// <param name="ndArrays">The arrays to test for broadcasting.</param>
/// <returns>True if these can be broadcasted against each other.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_arrays.html</remarks>
public static bool are_broadcastable(params NDArray[] ndArrays)
{
return(DefaultEngine.AreBroadcastable(ndArrays));
}
/// <summary>
/// Broadcast an shape against an other new shape.
/// </summary>
/// <param name="from">The shape that is to be broadcasted</param>
/// <param name="against">The shape that'll be used to broadcast <paramref name="from"/> shape</param>
/// <returns>A readonly view on the original array with the given shape. It is typically not contiguous. Furthermore, more than one element of a broadcasted array may refer to a single memory location.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_to.html</remarks>
public static Shape broadcast_to(Shape from, UnmanagedStorage against)
{
return(DefaultEngine.Broadcast(from, against.Shape).LeftShape);
}
public ExploratoryTests(DefaultEngine engine)
{
Fixture = new ExploratoryFixture(engine);
Resources = new DefaultResources();
}
/// <summary>
/// Broadcast an array to a new shape.
/// </summary>
/// <param name="from">The UnmanagedStorage to broadcast.</param>
/// <param name="against">The shape to broadcast against.</param>
/// <returns>These arrays are views on the original arrays. They are typically not contiguous. Furthermore, more than one element of a broadcasted array may refer to a single memory location. If you need to write to the arrays, make copies first.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_to.html</remarks>
public static NDArray broadcast_to(UnmanagedStorage from, UnmanagedStorage against)
{
return(new NDArray(UnmanagedStorage.CreateBroadcastedUnsafe(from, DefaultEngine.Broadcast(from.Shape, against.Shape).LeftShape)));
}
public SearchAndNavigationConfigurationTests(DefaultEngine engine)
{
Fixture = new DefaultFixture(engine);
}
/// <summary>
/// Broadcast two arrays against each other.
/// </summary>
/// <param name="lhs">An array to broadcast.</param>
/// <param name="rhs">An array to broadcast.</param>
/// <returns>These arrays are views on the original arrays. They are typically not contiguous. Furthermore, more than one element of a broadcasted array may refer to a single memory location. If you need to write to the arrays, make copies first.</returns>
/// <remarks>https://docs.scipy.org/doc/numpy/reference/generated/numpy.broadcast_arrays.html</remarks>
public static (NDArray Lhs, NDArray Rhs) broadcast_arrays(NDArray lhs, NDArray rhs)
{
var(leftShape, rightShape) = DefaultEngine.Broadcast(lhs.Shape, rhs.Shape);
return(new NDArray(UnmanagedStorage.CreateBroadcastedUnsafe(lhs.Storage, leftShape)),
new NDArray(UnmanagedStorage.CreateBroadcastedUnsafe(rhs.Storage, rightShape)));
}
public EpiserverFixtureTests(DefaultEngine engine)
{
Fixture = new DefaultFixture(engine);
}
