public EquiJoinStreamable(IStreamable <TKey, TLeft> left, IStreamable <TKey, TRight> right, Expression <Func <TLeft, TRight, TResult> > selector)
: base(left.Properties.Join(right.Properties, selector), left, right)
{
Contract.Requires(selector != null);
this.Selector = selector;
// This operator uses the equality method on payloads
if (left.Properties.IsColumnar && !left.Properties.IsStartEdgeOnly && !left.Properties.PayloadEqualityComparer.CanUsePayloadEquality())
{
throw new InvalidOperationException(string.Format(CultureInfo.InvariantCulture, "Type of left side of join, '{0}', does not have a valid equality operator for columnar mode.", typeof(TLeft).FullName));
}
// This operator uses the equality method on payloads
if (right.Properties.IsColumnar && !right.Properties.IsStartEdgeOnly && !right.Properties.PayloadEqualityComparer.CanUsePayloadEquality())
{
throw new InvalidOperationException(string.Format(CultureInfo.InvariantCulture, "Type of right side of join, '{0}', does not have a valid equality operator for columnar mode.", typeof(TRight).FullName));
}
if (left.Properties.IsStartEdgeOnly && right.Properties.IsStartEdgeOnly)
{
if ((left.Properties.KeyComparer != null) && (right.Properties.KeyComparer != null) &&
(left.Properties.KeyComparer.ExpressionEquals(right.Properties.KeyComparer) &&
(typeof(TKey).GetPartitionType() == null)))
{
this.joinKind = JoinKind.IncreasingOrderEquiJoin;
this.fallbackGenerator = (s, e, o) => new IncreasingOrderEquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = null;
this.columnarGenerator = (k => IncreasingOrderEquiJoinTemplate.Generate(this, this.Selector));
}
else
{
this.joinKind = JoinKind.StartEdgeEquijoin;
this.fallbackGenerator = (s, e, o) => new StartEdgeEquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = (s, e, o) => (BinaryPipe <TKey, TLeft, TRight, TResult>)Activator.CreateInstance(
typeof(PartitionedStartEdgeEquiJoinPipe <, , , ,>).MakeGenericType(
typeof(TKey),
typeof(TLeft),
typeof(TRight),
typeof(TResult),
typeof(TKey).GetPartitionType()), s, e, o);
this.columnarGenerator = (k => StartEdgeEquiJoinTemplate.Generate(this, this.Selector));
}
}
else
{
this.joinKind = JoinKind.EquiJoin;
this.fallbackGenerator = (s, e, o) => new EquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = (s, e, o) => (BinaryPipe <TKey, TLeft, TRight, TResult>)Activator.CreateInstance(
CreatePartitionedEquiJoinType(), s, e, o);
this.columnarGenerator = (k => EquiJoinTemplate.Generate(this, this.Selector));
}
Initialize();
}
public EquiJoinStreamable(IStreamable <TKey, TLeft> left, IStreamable <TKey, TRight> right, Expression <Func <TLeft, TRight, TResult> > selector)
: base(left.Properties.Join(right.Properties, selector), left, right)
{
Contract.Requires(selector != null);
this.Selector = selector;
if (left.Properties.IsStartEdgeOnly && right.Properties.IsStartEdgeOnly)
{
if ((left.Properties.KeyComparer != null) && (right.Properties.KeyComparer != null) &&
left.Properties.KeyComparer.ExpressionEquals(right.Properties.KeyComparer) &&
(typeof(TKey).GetPartitionType() == null))
{
this.joinKind = JoinKind.IncreasingOrderEquiJoin;
this.fallbackGenerator = (s, e, o) => new IncreasingOrderEquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = null;
this.columnarGenerator = k => IncreasingOrderEquiJoinTemplate.Generate(this, this.Selector);
}
else
{
this.joinKind = JoinKind.StartEdgeEquijoin;
this.fallbackGenerator = (s, e, o) => new StartEdgeEquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = (s, e, o) => (BinaryPipe <TKey, TLeft, TRight, TResult>)Activator.CreateInstance(
typeof(PartitionedStartEdgeEquiJoinPipe <, , , ,>).MakeGenericType(
typeof(TKey),
typeof(TLeft),
typeof(TRight),
typeof(TResult),
typeof(TKey).GetPartitionType()), s, e, o);
this.columnarGenerator = k => StartEdgeEquiJoinTemplate.Generate(this, this.Selector);
}
}
else if (left.Properties.IsConstantDuration && right.Properties.IsConstantDuration)
{
this.joinKind = JoinKind.FixedIntervalEquiJoin;
this.fallbackGenerator = (s, e, o) => new FixedIntervalEquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = (s, e, o) => (BinaryPipe <TKey, TLeft, TRight, TResult>)Activator.CreateInstance(
CreatePartitionedFixedIntervalEquiJoinType(), s, e, o);
this.columnarGenerator = k => FixedIntervalEquiJoinTemplate.Generate(this, this.Selector);
}
else
{
this.joinKind = JoinKind.EquiJoin;
this.fallbackGenerator = (s, e, o) => new EquiJoinPipe <TKey, TLeft, TRight, TResult>(s, e, o);
this.partitionedGenerator = (s, e, o) => (BinaryPipe <TKey, TLeft, TRight, TResult>)Activator.CreateInstance(
CreatePartitionedEquiJoinType(), s, e, o);
this.columnarGenerator = k => EquiJoinTemplate.Generate(this, this.Selector);
}
Initialize();
}
internal static Tuple <Type, string> Generate <TKey, TLeft, TRight, TResult>(
BinaryStreamable <TKey, TLeft, TRight, TResult> stream,
Expression <Func <TLeft, TRight, TResult> > selector)
{
Contract.Requires(stream != null);
Contract.Ensures(Contract.Result <Tuple <Type, string> >() == null || typeof(BinaryPipe <TKey, TLeft, TRight, TResult>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string errorMessages = null;
try
{
var template = new EquiJoinTemplate();
var keyType = template.keyType = typeof(TKey);
var leftType = template.leftType = typeof(TLeft);
var rightType = template.rightType = typeof(TRight);
var resultType = template.resultType = typeof(TResult);
var tm = new TypeMapper(keyType, leftType, rightType, resultType);
template.TKey = tm.CSharpNameFor(keyType);
template.TLeft = tm.CSharpNameFor(leftType);
template.TRight = tm.CSharpNameFor(rightType);
template.TResult = tm.CSharpNameFor(resultType);
var keyAndLeftGenericParameters = tm.GenericTypeVariables(keyType, leftType).BracketedCommaSeparatedString();
var keyAndRightGenericParameters = tm.GenericTypeVariables(keyType, rightType).BracketedCommaSeparatedString();
template.TKeyTResultGenericParameters = tm.GenericTypeVariables(keyType, resultType).BracketedCommaSeparatedString();
template.genericParameters = tm.GenericTypeVariables(keyType, leftType, rightType, resultType).BracketedCommaSeparatedString();
template.className = string.Format("GeneratedEquiJoin_{0}", EquiJoinSequenceNumber++);
template.leftMessageRepresentation = new ColumnarRepresentation(leftType);
template.rightMessageRepresentation = new ColumnarRepresentation(rightType);
var resultMessageRepresentation = new ColumnarRepresentation(resultType);
var batchGeneratedFrom_TKey_TLeft = Transformer.GetBatchClassName(keyType, leftType);
var batchGeneratedFrom_TKey_TRight = Transformer.GetBatchClassName(keyType, rightType);
template.BatchGeneratedFrom_TKey_TResult = Transformer.GetBatchClassName(keyType, resultType);
template.LeftBatchType = batchGeneratedFrom_TKey_TLeft + keyAndLeftGenericParameters;
template.RightBatchType = batchGeneratedFrom_TKey_TRight + keyAndRightGenericParameters;
template.leftFields = template.leftMessageRepresentation.AllFields;
template.rightFields = template.rightMessageRepresentation.AllFields;
template.resultFields = resultMessageRepresentation.AllFields;
template.ActiveEventTypeLeft = leftType.GetTypeInfo().IsValueType ? template.TLeft : "Active_Event_Left";
template.ActiveEventTypeRight = rightType.GetTypeInfo().IsValueType ? template.TRight : "Active_Event_Right";
#region Key Equals
var keyComparer = stream.Properties.KeyEqualityComparer.GetEqualsExpr();
template.keyComparerEquals =
(left, right) =>
keyComparer.Inline(left, right);
if (keyType.IsAnonymousType())
{
template.keyComparerEquals =
(left, right) => string.Format("keyComparerEquals({0}, {1})", left, right);
}
#endregion
#region Left Payload Equals
{
var leftPayloadComparer = stream.Left.Properties.PayloadEqualityComparer.GetEqualsExpr();
var newLambda = Extensions.TransformFunction <TKey, TLeft>(leftPayloadComparer, "leftIndex", 0);
template.leftComparerEquals = (left, right) => newLambda.Inline(left, right);
}
#endregion
#region Right Payload Equals
{
var rightPayloadComparer = stream.Right.Properties.PayloadEqualityComparer.GetEqualsExpr();
var newLambda = Extensions.TransformFunction <TKey, TRight>(rightPayloadComparer, "rightIndex", 0);
template.rightComparerEquals = (left, right) => newLambda.Inline(left, right);
}
#endregion
#region Result Selector
{
var leftMessageType = StreamMessageManager.GetStreamMessageType <TKey, TLeft>();
var rightMessageType = StreamMessageManager.GetStreamMessageType <TKey, TRight>();
if (!ConstantExpressionFinder.IsClosedExpression(selector))
{
errorMessages = "result selector is not a closed expression";
throw new InvalidOperationException();
}
#region LeftBatchSelector
{
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >()
{
Tuple.Create(selector.Parameters[0], new SelectParameterInformation()
{
BatchName = "leftBatch", BatchType = leftMessageType, IndexVariableName = "i", parameterRepresentation = template.leftMessageRepresentation,
}),
};
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.leftBatchSelector = (leftBatch, leftIndex, rightEvent) =>
{
var d = new Dictionary <ParameterExpression, string>
{
{ Expression.Variable(leftMessageType, "leftBatch"), leftBatch },
{ Expression.Variable(typeof(int), "i"), leftIndex },
{ selector.Parameters[1], rightEvent }
};
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendFormat(
"output.{0}.AddString({1});\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
else
{
sb.AppendFormat(
"output.{0}.col[index] = {1};\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
}
sb.AppendLine("}");
return(sb.ToString());
};
}
#endregion
#region RightBatchSelector
{
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >()
{
Tuple.Create(selector.Parameters[1], new SelectParameterInformation()
{
BatchName = "rightBatch", BatchType = rightMessageType, IndexVariableName = "j", parameterRepresentation = template.rightMessageRepresentation,
}),
};
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.rightBatchSelector = (leftEvent, rightBatch, rightIndex) =>
{
var d = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ Expression.Variable(rightMessageType, "rightBatch"), rightBatch },
{ Expression.Variable(typeof(int), "j"), rightIndex }
};
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendFormat(
"output.{0}.AddString({1});\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
else
{
sb.AppendFormat(
"output.{0}.col[index] = {1};\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
}
sb.AppendLine("}");
return(sb.ToString());
};
}
#endregion
#region ActiveSelector
{
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >();
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.activeSelector = (leftEvent, rightEvent) =>
{
var d = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ selector.Parameters[1], rightEvent }
};
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendFormat(
"output.{0}.AddString({1});\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
else
{
sb.AppendFormat(
"output.{0}.col[index] = {1};\n",
f.Name,
e.ExpressionToCSharpStringWithParameterSubstitution(d));
}
}
sb.AppendLine("}");
return(sb.ToString());
};
}
#endregion
}
#endregion
if (stream.Left.Properties.IsIntervalFree && stream.Right.Properties.IsConstantDuration)
{
template.endPointHeap = "EndPointQueue";
}
else if (stream.Right.Properties.IsIntervalFree && stream.Left.Properties.IsConstantDuration)
{
template.endPointHeap = "EndPointQueue";
}
else if (stream.Left.Properties.IsConstantDuration && stream.Right.Properties.IsConstantDuration &&
stream.Left.Properties.ConstantDurationLength == stream.Right.Properties.ConstantDurationLength)
{
template.endPointHeap = "EndPointQueue";
}
else
{
template.endPointHeap = "EndPointHeap";
}
template.staticCtor = Transformer.StaticCtor(template.className);
var expandedCode = template.TransformText();
var assemblyReferences = Transformer.AssemblyReferencesNeededFor(keyType, leftType, rightType, resultType);
assemblyReferences.Add(typeof(IStreamable <,>).GetTypeInfo().Assembly);
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TLeft>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TRight>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TResult>());
var a = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
if (keyType.IsAnonymousType())
{
if (errorMessages == null)
{
errorMessages = string.Empty;
}
errorMessages += "\nCodegen Warning: The key type for an equi-join is an anonymous type (or contains an anonymous type), preventing the inlining of the key equality and hashcode functions. This may lead to poor performance.\n";
}
var realClassName = template.className.AddNumberOfNecessaryGenericArguments(keyType, leftType, rightType, resultType);
var t = a.GetType(realClassName);
if (t.GetTypeInfo().IsGenericType)
{
var list = keyType.GetAnonymousTypes();
list.AddRange(leftType.GetAnonymousTypes());
list.AddRange(rightType.GetAnonymousTypes());
list.AddRange(resultType.GetAnonymousTypes());
return(Tuple.Create(t.MakeGenericType(list.ToArray()), errorMessages));
}
else
{
return(Tuple.Create(t, errorMessages));
}
}
catch
{
if (Config.CodegenOptions.DontFallBackToRowBasedExecution)
{
throw new InvalidOperationException("Code Generation failed when it wasn't supposed to!");
}
return(Tuple.Create((Type)null, errorMessages));
}
}
internal static Tuple <Type, string> Generate <TKey, TLeft, TRight, TResult>(
BinaryStreamable <TKey, TLeft, TRight, TResult> stream,
Expression <Func <TLeft, TRight, TResult> > selector)
{
Contract.Requires(stream != null);
Contract.Ensures(Contract.Result <Tuple <Type, string> >() == null || typeof(BinaryPipe <TKey, TLeft, TRight, TResult>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string errorMessages = null;
try
{
var template = new EquiJoinTemplate($"GeneratedEquiJoin_{EquiJoinSequenceNumber++}", typeof(TKey), typeof(TLeft), typeof(TRight), typeof(TResult));
var keyAndLeftGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.leftType).BracketedCommaSeparatedString();
var keyAndRightGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.rightType).BracketedCommaSeparatedString();
template.TKeyTResultGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.resultType).BracketedCommaSeparatedString();
template.genericParameters = template.tm.GenericTypeVariables(template.keyType, template.leftType, template.rightType, template.resultType).BracketedCommaSeparatedString();
template.leftMessageRepresentation = new ColumnarRepresentation(template.leftType);
template.rightMessageRepresentation = new ColumnarRepresentation(template.rightType);
var resultMessageRepresentation = new ColumnarRepresentation(template.resultType);
var batchGeneratedFrom_TKey_TLeft = Transformer.GetBatchClassName(template.keyType, template.leftType);
var batchGeneratedFrom_TKey_TRight = Transformer.GetBatchClassName(template.keyType, template.rightType);
template.BatchGeneratedFrom_TKey_TResult = Transformer.GetBatchClassName(template.keyType, template.resultType);
template.LeftBatchType = batchGeneratedFrom_TKey_TLeft + keyAndLeftGenericParameters;
template.RightBatchType = batchGeneratedFrom_TKey_TRight + keyAndRightGenericParameters;
template.leftFields = template.leftMessageRepresentation.AllFields;
template.rightFields = template.rightMessageRepresentation.AllFields;
template.resultFields = resultMessageRepresentation.AllFields;
template.ActiveEventTypeLeft = template.leftType.GetTypeInfo().IsValueType ? template.TLeft : "Active_Event_Left";
template.ActiveEventTypeRight = template.rightType.GetTypeInfo().IsValueType ? template.TRight : "Active_Event_Right";
#region Key Equals
var keyComparer = stream.Properties.KeyEqualityComparer.GetEqualsExpr();
template.keyComparerEquals =
(left, right) =>
keyComparer.Inline(left, right);
if (template.keyType.IsAnonymousType())
{
template.keyComparerEquals =
(left, right) => $"keyComparerEquals({left}, {right})";
}
#endregion
#region Left Payload Equals
{
var leftPayloadComparer = stream.Left.Properties.PayloadEqualityComparer.GetEqualsExpr();
var newLambda = Extensions.TransformFunction <TKey, TLeft>(leftPayloadComparer, "leftIndex", 0);
template.leftComparerEquals = (left, right) => newLambda.Inline(left, right);
}
#endregion
#region Right Payload Equals
{
var rightPayloadComparer = stream.Right.Properties.PayloadEqualityComparer.GetEqualsExpr();
var newLambda = Extensions.TransformFunction <TKey, TRight>(rightPayloadComparer, "rightIndex", 0);
template.rightComparerEquals = (left, right) => newLambda.Inline(left, right);
}
#endregion
#region Result Selector
{
var leftMessageType = StreamMessageManager.GetStreamMessageType <TKey, TLeft>();
var rightMessageType = StreamMessageManager.GetStreamMessageType <TKey, TRight>();
if (!ConstantExpressionFinder.IsClosedExpression(selector))
{
errorMessages = "result selector is not a closed expression";
throw new InvalidOperationException();
}
#region LeftBatchSelector
{
var leftBatchIndexVariable = selector.Parameters.GenerateFreshVariableName("i");
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >()
{
Tuple.Create(selector.Parameters[0], new SelectParameterInformation()
{
BatchName = "leftBatch", BatchType = leftMessageType, IndexVariableName = leftBatchIndexVariable, parameterRepresentation = template.leftMessageRepresentation,
}),
};
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.leftBatchSelector = (leftBatch, leftIndex, rightEvent) =>
{
var parameterMap = new Dictionary <ParameterExpression, string>
{
{ Expression.Variable(leftMessageType, "leftBatch"), leftBatch },
{ Expression.Variable(typeof(int), leftBatchIndexVariable), leftIndex },
{ selector.Parameters[1], rightEvent }
};
if (projectionResult.ProjectionReturningResultInstance != null)
{
return($"this.output[index] = {projectionResult.ProjectionReturningResultInstance.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
else
{
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendLine($"this.output.{f.Name}.AddString({e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)});");
}
else
{
sb.AppendLine($"this.output.{f.Name}.col[index] = {e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
}
sb.AppendLine("}");
return(sb.ToString());
}
};
}
#endregion
#region RightBatchSelector
{
var rightBatchIndexVariable = selector.Parameters.GenerateFreshVariableName("j");
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >()
{
Tuple.Create(selector.Parameters[1], new SelectParameterInformation()
{
BatchName = "rightBatch", BatchType = rightMessageType, IndexVariableName = rightBatchIndexVariable, parameterRepresentation = template.rightMessageRepresentation,
}),
};
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.rightBatchSelector = (leftEvent, rightBatch, rightIndex) =>
{
var parameterMap = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ Expression.Variable(rightMessageType, "rightBatch"), rightBatch },
{ Expression.Variable(typeof(int), rightBatchIndexVariable), rightIndex }
};
if (projectionResult.ProjectionReturningResultInstance != null)
{
return($"this.output[index] = {projectionResult.ProjectionReturningResultInstance.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
else
{
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendLine($"this.output.{f.Name}.AddString({e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)});");
}
else
{
sb.AppendLine($"this.output.{f.Name}.col[index] = {e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
}
sb.AppendLine("}");
return(sb.ToString());
}
};
}
#endregion
#region ActiveSelector
{
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >();
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultMessageRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.activeSelector = (leftEvent, rightEvent) =>
{
var parameterMap = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ selector.Parameters[1], rightEvent }
};
if (projectionResult.ProjectionReturningResultInstance != null)
{
return($"this.output[index] = {projectionResult.ProjectionReturningResultInstance.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
else
{
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
if (f.OptimizeString())
{
sb.AppendLine($"this.output.{f.Name}.AddString({e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)});");
}
else
{
sb.AppendLine($"this.output.{f.Name}.col[index] = {e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
}
sb.AppendLine("}");
return(sb.ToString());
}
};
}
#endregion
}
#endregion
if (stream.Left.Properties.IsIntervalFree && stream.Right.Properties.IsConstantDuration)
{
template.endPointHeap = "EndPointQueue";
}
else if (stream.Right.Properties.IsIntervalFree && stream.Left.Properties.IsConstantDuration)
{
template.endPointHeap = "EndPointQueue";
}
else if (stream.Left.Properties.IsConstantDuration && stream.Right.Properties.IsConstantDuration &&
stream.Left.Properties.ConstantDurationLength == stream.Right.Properties.ConstantDurationLength)
{
template.endPointHeap = "EndPointQueue";
}
else
{
template.endPointHeap = "EndPointHeap";
}
return(template.Generate <TKey, TLeft, TRight, TResult>(selector));
}
catch
{
if (Config.CodegenOptions.DontFallBackToRowBasedExecution)
{
throw new InvalidOperationException("Code Generation failed when it wasn't supposed to!");
}
return(Tuple.Create((Type)null, errorMessages));
}
}