internal static SelectTransformationResult Transform(
LambdaExpression function,
IEnumerable <Tuple <ParameterExpression, SelectParameterInformation> > substitutionInformation,
ColumnarRepresentation resultTypeInformation,
bool noSwingingFields = false,
bool hasStartEdge = false)
{
Contract.Requires(function != null);
Contract.Requires(substitutionInformation != null);
Contract.Requires(resultTypeInformation != null);
var me = new SelectTransformer(function, substitutionInformation, resultTypeInformation, noSwingingFields,
Config.UseMultiString && ((Config.MultiStringTransforms & Config.CodegenOptions.MultiStringFlags.VectorOperations) != 0), hasStartEdge);
// Need to find any unmentioned fields from the result type
var unmentionedFields = new List <MyFieldInfo>();
if (me.ProjectionReturningResultInstance == null)
{
foreach (var kv in resultTypeInformation.Fields)
{
var fieldInfo = kv.Value;
if (me.swingingFields.Any(t => t.Item1.Equals(fieldInfo)))
{
continue;
}
if (me.computedFields.Keys.Any(fi => fi.Equals(fieldInfo)))
{
continue;
}
if (me.multiStringResultFields.Any(f => f.Equals(fieldInfo)))
{
continue;
}
unmentionedFields.Add(fieldInfo);
}
}
return(new SelectTransformationResult()
{
Error = me.error,
ComputedFields = me.computedFields,
SwingingFields = me.swingingFields,
UnmentionedFields = unmentionedFields,
ProjectionReturningResultInstance = me.ProjectionReturningResultInstance,
MultiStringOperations = me.multiStringOperations,
NeedsSourceInstance = me.needsSourceInstance,
});
}
public static Tuple <Type, string> Generate <TKey, TPayload, TResult>(SelectManyStreamable <TKey, TPayload, TResult> stream)
{
Contract.Ensures(Contract.Result <Tuple <Type, string> >() == null || typeof(UnaryPipe <TKey, TPayload, TResult>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string generatedClassName;
string expandedCode;
string errorMessages = null;
try
{
generatedClassName = $"SelectMany_{sequenceNumber++}";
var keyType = typeof(TKey);
var payloadType = typeof(TPayload);
var resultType = typeof(TResult);
var template = new SelectManyTemplate(generatedClassName, keyType, payloadType, resultType);
var tm = new TypeMapper(keyType, payloadType, resultType);
var gps = tm.GenericTypeVariables(keyType, payloadType, resultType);
template.genericParameters = gps.BracketedCommaSeparatedString();
template.numberOfGenericParameters = gps.Count();
template.TKeyTResultGenericParameters = tm.GenericTypeVariables(keyType, resultType).BracketedCommaSeparatedString();
template.MemoryPoolGenericParameters = $"<{template.TKey}, {template.TResult}>";
if (resultType == typeof(int) || resultType == typeof(long) || resultType == typeof(string))
{
template.MemoryPoolGenericParameters = string.Empty;
}
var payloadParameterIndex = 0;
if (stream.HasKey && stream.HasStartEdge)
{
payloadParameterIndex = 2;
}
else if (stream.HasKey || stream.HasStartEdge)
{
payloadParameterIndex = 1;
}
var selector = stream.Selector;
var payloadParameter = selector.Parameters.ElementAt(payloadParameterIndex);
template.PARAMETER = payloadParameter.Name;
template.resultPayloadRepresentation = new ColumnarRepresentation(resultType);
template.resultFields = template.resultPayloadRepresentation.AllFields;
if (template.numberOfGenericParameters > 0)
{
generatedClassName = generatedClassName + "`" + template.numberOfGenericParameters.ToString(CultureInfo.InvariantCulture);
}
expandedCode = string.Empty;
Expression transformedSelector = selector;
// No substitutions are made for the start edge parameter or key parameter. Both just remain in the
// body of the result selector and are set as local variables in the generated code.
var keyParameterIndex = stream.HasStartEdge ? 1 : 0;
var tuple = OptimizeSelectMany(selector.Body);
if (tuple != null)
{
template.enumerableRepeatSelector = true;
var resultSelector = stream.Selector;
var sourceMessageType = StreamMessageManager.GetStreamMessageType <TKey, TPayload>();
var pseudoLambdaParameters = new ParameterExpression[stream.HasKey ? 2 : 1];
var pseudoLambdaIndex = 0;
if (stream.HasKey)
{
pseudoLambdaParameters[pseudoLambdaIndex++] = selector.Parameters[keyParameterIndex];
}
pseudoLambdaParameters[pseudoLambdaIndex] = payloadParameter;
var pseudoLambda = Expression.Lambda(tuple.Item1, pseudoLambdaParameters);
var parameterSubstitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >
{
Tuple.Create(payloadParameter, new SelectParameterInformation()
{
BatchName = "batch", BatchType = sourceMessageType, IndexVariableName = "i", parameterRepresentation = new ColumnarRepresentation(payloadType)
})
};
var projectionResult = SelectTransformer.Transform(pseudoLambda, parameterSubstitutions, template.resultPayloadRepresentation, true, stream.HasStartEdge);
template.computedFields = projectionResult.ComputedFields;
template.useEnumerator = false;
var loopCounter = tuple.Item2;
var newParameters = new ParameterExpression[stream.HasKey ? 2 : 1];
newParameters[0] = payloadParameter;
if (stream.HasKey)
{
newParameters[1] = selector.Parameters[keyParameterIndex];
}
var loopCounterLambda = Expression.Lambda(loopCounter, payloadParameter);
var transformedLoopCounter = Extensions.TransformFunction <TKey, TPayload>(loopCounterLambda, 0);
template.loopCounter = transformedLoopCounter.Body.ExpressionToCSharp();
// REVIEW: Alternative: use Inline to replace occurrences of the key parameter
// with "batch.key.col[i]".
if (stream.HasKey)
{
template.keyParameterName = selector.Parameters[keyParameterIndex].Name;
}
}
else
{
transformedSelector = Extensions.TransformFunction <TKey, TPayload>(stream.Selector, payloadParameterIndex).Body;
if (transformedSelector == null)
{
template.useEnumerator = true;
template.transformedSelectorAsSource = stream.Selector.ExpressionToCSharp();
}
else
{
var tuple2 = OptimizeSelectMany(transformedSelector);
if (tuple2 != null)
{
template.useEnumerator = false;
template.loopCounter = tuple2.Item2.ExpressionToCSharp();
template.transformedSelectorAsSource = tuple2.Item1.ExpressionToCSharp();
}
else
{
template.useEnumerator = true;
template.transformedSelectorAsSource = transformedSelector.ExpressionToCSharp();
}
}
}
template.StartEdgeParameterName = stream.HasStartEdge ? selector.Parameters.ElementAt(0).Name : null;
template.hasKey = stream.HasKey;
expandedCode = template.TransformText();
var assemblyReferences = Transformer.AssemblyReferencesNeededFor(typeof(TKey), typeof(TPayload), typeof(TResult));
assemblyReferences.Add(typeof(IStreamable <,>).GetTypeInfo().Assembly);
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TPayload>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TResult>());
assemblyReferences.Add(Transformer.GeneratedMemoryPoolAssembly <TKey, TResult>());
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(stream.Selector));
var a = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
var t = a.GetType(generatedClassName);
t = t.InstantiateAsNecessary(typeof(TKey), typeof(TPayload), typeof(TResult));
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));
}
}
/// <summary>
/// Generate a batch class definition to be used as an aggreate definition.
/// Compile the definition, dynamically load the assembly containing it, and return the Type representing the
/// aggregate class.
/// </summary>
/// <typeparam name="TKey">The key type for the aggregate.</typeparam>
/// <typeparam name="TInput">The input type for the aggregate.</typeparam>
/// <typeparam name="TOutput">The output type for the aggregate.</typeparam>
/// <typeparam name="TState">The type for the accumulated state held by the aggregate.</typeparam>
/// <typeparam name="TResult">The type of the result.</typeparam>
/// <returns>
/// A type that is defined to be a subtype of UnaryPipe<<typeparamref name="TKey"/>,<typeparamref name="TInput"/>>.
/// </returns>
internal static Tuple <Type, string> Generate <TKey, TInput, TState, TOutput, TResult>(
GroupedWindowStreamable <TKey, TInput, TState, TOutput, TResult> stream)
{
Contract.Requires(stream != null);
Contract.Ensures(Contract.Result <Tuple <Type, string> >() == null || typeof(IStreamObserver <Empty, TInput>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string errorMessages = null;
try
{
string expandedCode;
var template = new GroupedWindowTemplate();
var keyType = template.keyType = typeof(TKey);
var inputType = template.inputType = typeof(TInput);
var stateType = template.stateType = typeof(TState);
var outputType = template.outputType = typeof(TOutput);
var resultType = template.resultType = typeof(TResult);
template.TResult = resultType.GetCSharpSourceSyntax(); // BUGBUG: need to get any generic parameters needed
template.isUngrouped = (keyType == typeof(Empty));
template.className = string.Format("GeneratedGroupedAggregate_{0}", GroupedAggregateSequenceNumber++);
var inputMessageRepresentation = new ColumnarRepresentation(inputType);
var resultRepresentation = new ColumnarRepresentation(resultType);
var assemblyReferences = new List <Assembly>();
#region Key Selector
var keySelector = stream.KeySelector;
string transformedKeySelectorAsString;
if (keyType.IsAnonymousTypeName())
{
Contract.Assume(keySelector.Body is NewExpression);
var transformedFunction = Extensions.TransformUnaryFunction <TKey, TInput>(keySelector);
var newBody = (NewExpression)transformedFunction.Body;
transformedKeySelectorAsString = string.Join(",", newBody.Arguments);
}
else
{
var transformedFunction = Extensions.TransformUnaryFunction <Empty, TInput>(keySelector).Body;
if (transformedFunction == null)
{
return(null);
}
transformedKeySelectorAsString = transformedFunction.ExpressionToCSharp();
}
template.keySelector = transformedKeySelectorAsString;
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(keySelector));
#endregion
#region Key Comparer and HashCode
var keyComparer = EqualityComparerExpression <TKey> .Default;
template.keyComparerEquals =
(left, right) =>
keyComparer.GetEqualsExpr().Inline(left, right);
template.keyComparerGetHashCode =
(x) =>
keyComparer.GetGetHashCodeExpr().Inline(x);
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(keyComparer.GetEqualsExpr()));
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(keyComparer.GetGetHashCodeExpr()));
#endregion
#region Aggregate functions
var initialStateLambda = stream.Aggregate.InitialState();
if (ConstantExpressionFinder.IsClosedExpression(initialStateLambda))
{
template.initialState = initialStateLambda.Body.ExpressionToCSharp();
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(initialStateLambda));
}
else
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
errorMessages = "Code Generation for GroupedWindow: couldn't inline the initial state lambda!";
throw new InvalidOperationException(errorMessages);
}
else
{
template.useCompiledInitialState = true;
template.initialState = "initialState()";
}
}
var accumulateLambda = stream.Aggregate.Accumulate();
if (ConstantExpressionFinder.IsClosedExpression(accumulateLambda))
{
var accTransformedLambda = Extensions.TransformFunction <TKey, TInput>(accumulateLambda, 2);
template.accumulate = (stateArg, longArg) => accTransformedLambda.Inline(stateArg, longArg);
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(accumulateLambda));
}
else
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
errorMessages = "Code Generation for GroupedWindow: couldn't inline the accumulate lambda!";
throw new InvalidOperationException(errorMessages);
}
else
{
template.useCompiledAccumulate = true;
template.accumulate = (s1, s2) => string.Format("accumulate({0}, {1}, batch[i]);", s1, s2);
}
}
var deaccumulateLambda = stream.Aggregate.Deaccumulate();
if (ConstantExpressionFinder.IsClosedExpression(deaccumulateLambda))
{
var deaccumulateTransformedLambda = Extensions.TransformFunction <TKey, TInput>(deaccumulateLambda, 2);
template.deaccumulate = (stateArg, longArg) => deaccumulateTransformedLambda.Inline(stateArg, longArg);
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(deaccumulateLambda));
}
else
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
throw new InvalidOperationException("Code Generation couldn't inline a lambda!");
}
else
{
template.useCompiledDeaccumulate = true;
template.deaccumulate = (s1, s2) => string.Format("deaccumulate({0}, {1}, batch[i]);", s1, s2);
}
}
var differenceLambda = stream.Aggregate.Difference();
if (ConstantExpressionFinder.IsClosedExpression(differenceLambda))
{
template.difference = (stateArg1, stateArg2) => differenceLambda.Inline(stateArg1, stateArg2);
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(differenceLambda));
}
else
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
errorMessages = "Code Generation for GroupedWindow: couldn't inline the deaccumulate lambda!";
throw new InvalidOperationException(errorMessages);
}
else
{
template.useCompiledDifference = true;
template.deaccumulate = (s1, s2) => string.Format("difference({0}, {1});", s1, s2);
}
}
var computeResultLambda = stream.Aggregate.ComputeResult();
if (ConstantExpressionFinder.IsClosedExpression(computeResultLambda))
{
if (outputType.IsAnonymousType())
{
if (computeResultLambda.Body is NewExpression newExpression)
{
errorMessages = "Code Generation for GroupedWindow: result selector must be a new expression for anonymous types";
throw new NotImplementedException(errorMessages);
}
else
{
template.computeResult = (stateArg) => computeResultLambda.Inline(stateArg);
}
}
else
{
template.computeResult = (stateArg) => computeResultLambda.Inline(stateArg);
}
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(computeResultLambda));
}
else
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
errorMessages = "Code Generation for GroupedWindow: couldn't inline the result selector lambda!";
throw new InvalidOperationException(errorMessages);
}
else
{
template.useCompiledComputeResult = true;
template.computeResult = (stateArg) => "computeResult(" + stateArg + ")";
}
}
#endregion
template.BatchGeneratedFrom_Unit_TInput = Transformer.GetBatchClassName(typeof(Empty), inputType);
template.UnitTInputGenericParameters = string.Empty; // BUGBUG
template.UnitTResultGenericParameters = string.Empty; // BUGBUG
template.inputFields = inputMessageRepresentation.AllFields;
template.outputFields = resultRepresentation.AllFields;
var resultSelector = stream.ResultSelector;
var parameterSubstitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >(); // dont want the parameters substituted for at all
var projectionResult = SelectTransformer.Transform(resultSelector, parameterSubstitutions, resultRepresentation, true);
if (projectionResult.Error)
{
return(null);
}
template.finalResultSelector =
(key, aggregateResult) =>
{
var parameters = new Dictionary <ParameterExpression, string>
{
{ resultSelector.Parameters.ElementAt(0), key }
};
var sb = new System.Text.StringBuilder();
sb.AppendLine("{");
sb.AppendLine(string.Format("var {0} = {1};\n", resultSelector.Parameters.ElementAt(1).Name, aggregateResult));
foreach (var kv in projectionResult.ComputedFields)
{
var f = kv.Key;
var e = kv.Value;
sb.AppendFormat("this.batch.{0}.col[_c] = {1};\n", f.Name, e.ExpressionToCSharpStringWithParameterSubstitution(parameters));
}
sb.AppendLine("}");
return(sb.ToString());
};
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(resultSelector));
template.staticCtor = Transformer.StaticCtor(template.className);
expandedCode = template.TransformText();
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(typeof(Empty), typeof(TKey), typeof(TInput), typeof(TState), typeof(TOutput), typeof(FastDictionaryGenerator3)));
assemblyReferences.Add(typeof(IStreamable <,>).GetTypeInfo().Assembly);
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <Empty, TInput>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <Empty, TResult>());
assemblyReferences.Add(Transformer.GeneratedMemoryPoolAssembly <Empty, TResult>());
var assembly = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
var t = assembly.GetType(template.className);
if (t.GetTypeInfo().IsGenericType)
{
var list = typeof(TKey).GetAnonymousTypes();
list.AddRange(typeof(TInput).GetAnonymousTypes());
list.AddRange(typeof(TState).GetAnonymousTypes());
list.AddRange(typeof(TOutput).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));
}
}
public static Tuple <Type, string> Generate <TKey, TPayload, TResult>(SelectStreamable <TKey, TPayload, TResult> stream)
{
Contract.Ensures(Contract.Result <Tuple <Type, string> >() == null || typeof(UnaryPipe <TKey, TPayload, TResult>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string generatedClassName;
string errorMessages = null;
try
{
var keyType = typeof(TKey);
var payloadType = typeof(TPayload);
var resultType = typeof(TResult);
generatedClassName = string.Format("Select_{0}_{1}_{2}_{3}", keyType.GetValidIdentifier(), payloadType.GetValidIdentifier(), resultType.GetValidIdentifier(), sequenceNumber++);
var template = new SelectTemplate(generatedClassName, keyType, payloadType, resultType);
var tm = new TypeMapper(keyType, payloadType, resultType);
var gps = tm.GenericTypeVariables(keyType, payloadType, resultType);
template.genericParameters = gps.BracketedCommaSeparatedString();
template.numberOfGenericParameters = gps.Count();
template.TKeyTResultGenericParameters = tm.GenericTypeVariables(keyType, resultType).BracketedCommaSeparatedString();
template.MemoryPoolGenericParameters = $"<{template.TKey}, {template.TResult}>";
if (resultType == typeof(int) || resultType == typeof(long) || resultType == typeof(string))
{
template.MemoryPoolGenericParameters = string.Empty;
}
var payloadParameterIndex = 0;
if (stream.HasKey && stream.HasStartEdge)
{
payloadParameterIndex = 2;
}
else if (stream.HasKey || stream.HasStartEdge)
{
payloadParameterIndex = 1;
}
template.PARAMETER = stream.Selector.Parameters[payloadParameterIndex].Name;
template.resultPayloadRepresentation = new ColumnarRepresentation(resultType);
template.destinationFields = template.resultPayloadRepresentation.AllFields;
if (template.numberOfGenericParameters > 0)
{
generatedClassName = generatedClassName + "`" + template.numberOfGenericParameters.ToString(CultureInfo.InvariantCulture);
}
var resultSelector = stream.Selector;
var sourceMessageType = StreamMessageManager.GetStreamMessageType <TKey, TPayload>();
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >();
// Don't create a parameter substitution for the start edge parameter. That will just remain in the
// body of the result selector and will be set as a local variable in the generated code.
if (stream.HasKey)
{
var keyRepresentation = new ColumnarRepresentation(keyType, "key");
var keyParameterIndex = stream.HasStartEdge ? 1 : 0;
parameterSubsitutions.Add(Tuple.Create(
resultSelector.Parameters.ElementAt(keyParameterIndex),
new SelectParameterInformation()
{
BatchName = "sourceBatch", BatchType = sourceMessageType, IndexVariableName = "i", parameterRepresentation = keyRepresentation,
}));
}
parameterSubsitutions.Add(Tuple.Create(
resultSelector.Parameters.ElementAt(payloadParameterIndex),
new SelectParameterInformation()
{
BatchName = "sourceBatch", BatchType = sourceMessageType, IndexVariableName = "i", parameterRepresentation = new ColumnarRepresentation(payloadType)
}));
var projectionResult = SelectTransformer.Transform(resultSelector, parameterSubsitutions, template.resultPayloadRepresentation, false, stream.HasStartEdge);
if (projectionResult.Error)
{
if (Config.CodegenOptions.SuperStrictColumnar)
{
throw new InvalidOperationException("Code Generation couldn't transform a selector!");
}
return(Tuple.Create((Type)null, errorMessages));
}
template.StartEdgeParameterName = stream.HasStartEdge ? resultSelector.Parameters.ElementAt(0).Name : null;
template.computedFields = projectionResult.ComputedFields;
template.swingingFields = projectionResult.SwingingFields;
template.unassignedFields = projectionResult.UnmentionedFields;
template.ProjectionReturningResultInstance = projectionResult.ProjectionReturningResultInstance;
template.multiStringOperations = projectionResult.MultiStringOperations;
template.needSourceInstance = projectionResult.NeedsSourceInstance;
var d = new Dictionary <MyFieldInfo, int>();
foreach (var f in template.swingingFields)
{
var target = f.Item1;
var source = f.Item2;
if (!d.ContainsKey(source))
{
d.Add(source, 0);
}
d[source] = d[source] + 1;
}
template.swungFieldsCount = d;
template.nonSwingingFields = template.fields.Where(sf => !template.swingingFields.Any(swingingField => swingingField.Item2.Equals(sf)));
var expandedCode = template.TransformText();
var assemblyReferences = Transformer.AssemblyReferencesNeededFor(
typeof(TKey), typeof(TPayload), typeof(TResult), typeof(IStreamable <,>));
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TPayload>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TResult>());
assemblyReferences.Add(Transformer.GeneratedMemoryPoolAssembly <TKey, TResult>());
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(stream.Selector));
var a = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
var t = a.GetType(generatedClassName);
t = t.InstantiateAsNecessary(typeof(TKey), typeof(TPayload), typeof(TResult));
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 FixedIntervalEquiJoinTemplate($"GeneratedFixedIntervalEquiJoin_{EquiJoinSequenceNumber++}", typeof(TKey), typeof(TLeft), typeof(TRight), typeof(TResult))
{
leftDuration = stream.Left.Properties.ConstantDurationLength.Value,
rightDuration = stream.Right.Properties.ConstantDurationLength.Value
};
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 d = new Dictionary <ParameterExpression, string>
{
{ Expression.Variable(leftMessageType, "leftBatch"), leftBatch },
{ Expression.Variable(typeof(int), leftBatchIndexVariable), 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 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 d = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ Expression.Variable(rightMessageType, "rightBatch"), rightBatch },
{ Expression.Variable(typeof(int), rightBatchIndexVariable), 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
return(template.Generate <TKey, TLeft, TRight, TResult>());
}
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 StartEdgeEquiJoinTemplate($"GeneratedStartEdgeEquiJoin_{StartEdgeEquiJoinSequenceNumber++}", typeof(TKey), typeof(TLeft), typeof(TRight), typeof(TResult));
var gps = template.tm.GenericTypeVariables(template.keyType, template.leftType, template.rightType, template.resultType);
template.genericParameters = gps.BracketedCommaSeparatedString();
template.leftMessageRepresentation = new ColumnarRepresentation(template.leftType);
template.leftFields = template.leftMessageRepresentation.AllFields;
template.rightMessageRepresentation = new ColumnarRepresentation(template.rightType);
template.rightFields = template.rightMessageRepresentation.AllFields;
var resultRepresentation = new ColumnarRepresentation(template.resultType);
#region Key Comparer
var keyComparer = stream.Properties.KeyEqualityComparer.GetEqualsExpr();
template.keyComparer =
(left, right) =>
keyComparer.Inline(left, right);
#endregion
template.BatchGeneratedFrom_TKey_TLeft = Transformer.GetBatchClassName(template.keyType, template.leftType);
template.TKeyTLeftGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.leftType).BracketedCommaSeparatedString();
template.BatchGeneratedFrom_TKey_TRight = Transformer.GetBatchClassName(template.keyType, template.rightType);
template.TKeyTRightGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.rightType).BracketedCommaSeparatedString();
template.BatchGeneratedFrom_TKey_TResult = Transformer.GetBatchClassName(template.keyType, template.resultType);
template.TKeyTResultGenericParameters = template.tm.GenericTypeVariables(template.keyType, template.resultType).BracketedCommaSeparatedString();
template.outputFields = resultRepresentation.AllFields;
var leftMessageType = StreamMessageManager.GetStreamMessageType <TKey, TLeft>();
var rightMessageType = StreamMessageManager.GetStreamMessageType <TKey, TRight>();
#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, resultRepresentation, 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($"this.output.{f.Name}.col[index] = {e.ExpressionToCSharpStringWithParameterSubstitution(parameterMap)};");
}
}
sb.AppendLine("}");
return(sb.ToString());
}
};
}
#endregion
#region RightBatchSelector
{
var rightBatchIndexVariable = selector.Parameters.GenerateFreshVariableName("j");
var parameterSubsitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >()
{
Tuple.Create(selector.Parameters[1], new SelectParameterInformation()
{
BatchName = "rightBatch", BatchType = rightMessageType, IndexVariableName = rightBatchIndexVariable, parameterRepresentation = template.rightMessageRepresentation,
}),
};
var projectionResult = SelectTransformer.Transform(selector, parameterSubsitutions, resultRepresentation, true);
if (projectionResult.Error)
{
errorMessages = "error while transforming the result selector";
throw new InvalidOperationException();
}
template.rightBatchSelector = (leftEvent, rightBatch, rightIndex) =>
{
var parameterMap = new Dictionary <ParameterExpression, string>
{
{ selector.Parameters[0], leftEvent },
{ Expression.Variable(rightMessageType, "rightBatch"), rightBatch },
{ Expression.Variable(typeof(int), rightBatchIndexVariable), rightIndex }
};
if (projectionResult.ProjectionReturningResultInstance != null)
{
return($"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
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));
}
}
/// <summary>
/// Generate a batch class definition to be used as StartEdgeEquiJoin operator.
/// Compile the definition, dynamically load the assembly containing it, and return the Type representing the
/// aggregate class.
/// </summary>
/// <typeparam name="TKey">The key type for both sides.</typeparam>
/// <typeparam name="TLeft">The payload type for the left side.</typeparam>
/// <typeparam name="TRight">The payload type for the right side.</typeparam>
/// <typeparam name="TResult">The payload type for the resulting stream.</typeparam>
/// <returns>
/// A type that is defined to be a subtype of BinaryPipe<<typeparamref name="TKey"/>,<typeparamref name="TLeft"/>, <typeparamref name="TRight"/>, <typeparamref name="TKey"/>, <typeparamref name="TResult"/>>.
/// </returns>
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 IncreasingOrderEquiJoinTemplate($"GeneratedIncreasingOrderEquiJoin_{IOOEJSequenceNumber++}", typeof(TKey), typeof(TLeft), typeof(TRight), typeof(TResult));
template.leftMessageRepresentation = new ColumnarRepresentation(template.leftType);
template.leftFields = template.leftMessageRepresentation.AllFields;
template.rightMessageRepresentation = new ColumnarRepresentation(template.rightType);
template.rightFields = template.rightMessageRepresentation.AllFields;
var resultRepresentation = new ColumnarRepresentation(template.resultType);
var leftMessageType = StreamMessageManager.GetStreamMessageType <TKey, TLeft>();
var rightMessageType = StreamMessageManager.GetStreamMessageType <TKey, TRight>();
#region Key Comparer
var keyComparer = stream.Left.Properties.KeyComparer.GetCompareExpr();
if (!ConstantExpressionFinder.IsClosedExpression(keyComparer))
{
return(null);
}
template.joinKeyOrderComparer =
(left, right) =>
keyComparer.Inline(left, right);
#endregion
template.BatchGeneratedFrom_TKey_TLeft = Transformer.GetBatchClassName(template.keyType, template.leftType);
template.TKeyTLeftGenericParameters = string.Empty; // BUGBUG
template.BatchGeneratedFrom_TKey_TRight = Transformer.GetBatchClassName(template.keyType, template.rightType);
template.TKeyTRightGenericParameters = string.Empty; // BUGBUG
template.BatchGeneratedFrom_TKey_TResult = Transformer.GetBatchClassName(template.keyType, template.resultType);
template.TKeyTResultGenericParameters = string.Empty; // BUGBUG
template.outputFields = resultRepresentation.AllFields;
if (!ConstantExpressionFinder.IsClosedExpression(selector))
{
return(null);
}
#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, resultRepresentation, 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, resultRepresentation, 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
template.getOutputBatch = string.Format(
"pool.Get(out genericOutputBatch); output = ({0}{1})genericOutputBatch;",
Transformer.GetBatchClassName(template.keyType, template.resultType),
template.TKeyTResultGenericParameters);
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));
}
}
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));
}
}
private static Tuple <Type, string> GenerateInternal <TOuterKey, TInnerKey, TInnerResult, TResult>(Expression <Func <TInnerKey, TInnerResult, TResult> > resultSelector, bool isFirstLevelGroup)
{
Contract.Ensures(Contract.Result <Tuple <Type, string> >() != null);
Contract.Ensures(typeof(Pipe <TOuterKey, TResult>).GetTypeInfo().IsAssignableFrom(Contract.Result <Tuple <Type, string> >().Item1));
string errorMessages = null;
try
{
var typeOfTOuterKey = typeof(TOuterKey);
var typeOfTInnerKey = typeof(TInnerKey);
var typeofTInnerResult = typeof(TInnerResult);
var typeofTResult = typeof(TResult);
string expandedCode;
List <Assembly> assemblyReferences;
int numberOfGenericParameters;
// inline: var ok = UngroupTemplate.GetGeneratedCode<TOuterKey, TInnerKey, TInnerResult, TResult>(resultSelector, false, out generatedClassName, out expandedCode, out assemblyReferences, out numberOfGenericParameters);
var generatedClassName = string.Format(
"UngroupPipeGeneratedFrom_{0}_{1}_{2}_{3}_{4}",
typeOfTOuterKey.GetValidIdentifier(),
typeOfTInnerKey.GetValidIdentifier(),
typeofTInnerResult.GetValidIdentifier(),
typeofTResult.GetValidIdentifier(),
UngroupSequenceNumber++);
var inputMessageType = StreamMessageManager.GetStreamMessageType <CompoundGroupKey <TOuterKey, TInnerKey>, TInnerResult>();
var innerResultRepresentation = new ColumnarRepresentation(typeofTInnerResult);
var resultRepresentation = new ColumnarRepresentation(typeofTResult);
var parameterSubstitutions = new List <Tuple <ParameterExpression, SelectParameterInformation> >
{
// Leave the key parameter to the selector unchanged, so no substitution for parameters[0]
Tuple.Create(resultSelector.Parameters[1], new SelectParameterInformation()
{
BatchName = "inputBatch", BatchType = inputMessageType, IndexVariableName = "i", parameterRepresentation = innerResultRepresentation,
})
};
var result = SelectTransformer.Transform(resultSelector, parameterSubstitutions, resultRepresentation);
if (result.Error)
{
return(Tuple.Create((Type)null, errorMessages));
}
var template = new UngroupTemplate(generatedClassName, !isFirstLevelGroup, typeOfTOuterKey, typeOfTInnerKey, typeofTInnerResult, typeofTResult)
{
innerResultRepresentation = innerResultRepresentation,
swingingFields = result.SwingingFields,
computedFields = result.ComputedFields,
unassignedFields = result.UnmentionedFields,
keyParameter = resultSelector.Parameters.First()
};
template.staticCtor = Transformer.StaticCtor(template.CLASSNAME);
expandedCode = template.TransformText();
assemblyReferences = Transformer.AssemblyReferencesNeededFor(typeOfTOuterKey, typeOfTInnerKey, typeofTInnerResult, typeofTResult);
assemblyReferences.Add(typeof(IStreamable <,>).GetTypeInfo().Assembly);
// input messages
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <CompoundGroupKey <TOuterKey, TInnerKey>, TInnerResult>());
// output messages
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TOuterKey, TResult>());
// memory pool
assemblyReferences.Add(Transformer.GeneratedMemoryPoolAssembly <TOuterKey, TResult>());
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(resultSelector));
numberOfGenericParameters = template.numberOfGenericParameters;
var a = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
if (numberOfGenericParameters > 0)
{
generatedClassName = generatedClassName + "`" + numberOfGenericParameters.ToString(CultureInfo.InvariantCulture);
}
var t = a.GetType(generatedClassName);
t = t.InstantiateAsNecessary(typeOfTOuterKey, typeOfTInnerKey, typeofTInnerResult, typeofTResult);
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 StartEdgeEquiJoinTemplate();
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 gps = tm.GenericTypeVariables(keyType, leftType, rightType, resultType);
template.genericParameters = gps.BracketedCommaSeparatedString();
template.className = string.Format("GeneratedStartEdgeEquiJoin_{0}", StartEdgeEquiJoinSequenceNumber++);
template.leftMessageRepresentation = new ColumnarRepresentation(leftType);
template.leftFields = template.leftMessageRepresentation.AllFields;
template.rightMessageRepresentation = new ColumnarRepresentation(rightType);
template.rightFields = template.rightMessageRepresentation.AllFields;
var outputMessageRepresentation = new ColumnarRepresentation(resultType);
var resultRepresentation = outputMessageRepresentation;
#region Key Comparer
var keyComparer = stream.Properties.KeyEqualityComparer.GetEqualsExpr();
template.keyComparer =
(left, right) =>
keyComparer.Inline(left, right);
#endregion
template.BatchGeneratedFrom_TKey_TLeft = Transformer.GetBatchClassName(keyType, leftType);
template.TKeyTLeftGenericParameters = tm.GenericTypeVariables(keyType, leftType).BracketedCommaSeparatedString();
template.BatchGeneratedFrom_TKey_TRight = Transformer.GetBatchClassName(keyType, rightType);
template.TKeyTRightGenericParameters = tm.GenericTypeVariables(keyType, rightType).BracketedCommaSeparatedString();
template.BatchGeneratedFrom_TKey_TResult = Transformer.GetBatchClassName(keyType, resultType);
template.TKeyTResultGenericParameters = tm.GenericTypeVariables(keyType, resultType).BracketedCommaSeparatedString();
template.outputFields = resultRepresentation.AllFields;
var leftMessageType = StreamMessageManager.GetStreamMessageType <TKey, TLeft>();
var rightMessageType = StreamMessageManager.GetStreamMessageType <TKey, TRight>();
#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, resultRepresentation, 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, resultRepresentation, 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
template.staticCtor = Transformer.StaticCtor(template.className);
var expandedCode = template.TransformText();
var assemblyReferences = Transformer.AssemblyReferencesNeededFor(typeof(TKey), typeof(TLeft), typeof(TRight), typeof(TResult));
assemblyReferences.Add(typeof(IStreamable <,>).GetTypeInfo().Assembly);
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TLeft>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TRight>());
assemblyReferences.Add(Transformer.GeneratedStreamMessageAssembly <TKey, TResult>());
assemblyReferences.Add(Transformer.GeneratedMemoryPoolAssembly <TKey, TResult>());
assemblyReferences.AddRange(Transformer.AssemblyReferencesNeededFor(selector));
var a = Transformer.CompileSourceCode(expandedCode, assemblyReferences, out errorMessages);
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));
}
}
