4

I'd like to compile two separate expression trees into a single compiled lambda. I have a double[] input array. The first expression tree (for the sake of simplicity, let's refer to as ExpressionA) creates a new double[] array of the same length, which contains the results of a transformation of the input array values. The second expression tree (ExpressionB) does some calculations on the transformed array and returns a single double output, which I'd like to return.

I thought the following would work, but I am having problems:

ParameterExpression inputArray = Expression.Parameter(typeof(double[]));
ParameterExpression xformArray = Expression.Parameter(typeof(double[]));

Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
    Expression.Block(new ParameterExpression[] { inputArray, xformArray },
        Expression.Assign(xformArray, ExpressionA(inputArray)),
        ExpressionB(xformArray)),
    inputArray).Compile();

Although the program builds, I get a NullReference runtime exception when I called the compiled function (stack trace isn't helpful since it doesn't get inside lambda_method()).

However, this simpler version runs just fine (just passing in the xformed array):

Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
    ExpressionB(xformArray)), xformArray).Compile();

But this simpler version also fails with the NullReference exception:

Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
    Expression.Block(new ParameterExpression[] { xformArray },
        ExpressionB(xformArray)),
    xformArray).Compile();

Lastly, I also tried this proof-of-concept version and it also works (leading me to believe that a Block should conceptually be OK inside a lambda):

Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
    Expression.Block(new ParameterExpression[] { inputArray, xformArray },
        Expression.Constant(0.0)), // stub test
    inputArray).Compile();

So my question is how do I use both expression trees in a sequential manner inside a single compiled lambda?

1
  • add c# tag to attract more attention to your question May 8 '17 at 22:23
3

Without a good Minimal, Complete, and Verifiable code example, and especially without specifics about what ExpressionA() and ExpressionB() are and how you're actually using them, it's impossible to know for sure what the best answer might be. However, the most apparent issue I see is that you are re-declaring inputArray, which creates a new local variable in the block. Having not been assigned to anything, its value is of course null.

The fix would be to just remove that from the block's variables, leaving only xformArray:

Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
    Expression.Block(new ParameterExpression[] { xformArray },
        Expression.Assign(xformArray, ExpressionA(inputArray)),
        ExpressionB(xformArray)),
    inputArray).Compile();

Again, without a good MCVE, it's impossible to know for sure what your options might be. But IMHO it is always preferable to express expressions in code instead of building them manually. E.g.:

Func<double[], double> MakeExpression(
    Func<double[], double[]> transformA,
    Func<double[], double> transformB)
{
    return a => transformB(transformA(a));
}

If the transforms themselves are for some reason required to be expressed as expressions, you can still compile them individually before building the rest of the lambda:

Func<double[], double> MakeExpression(
    Expression<Func<double[], double[]>> transformA,
    Expression<Func<double[], double>> transformB)
{
    Func<double[], double[]> transformACompiled = transformA.Compile();
    Func<double[], double> transformBCompiled = transformB.Compile();

    return a => transformBCompiled(transformACompiled(a));
}

But, if you must do the whole thing using the Expression class explicitly, the correction in the first code example above should address your concern.

Finally, I'll point out that your original code can be significantly simplified:

    Func<double[], double> compiled = Expression.Lambda<Func<double[], double>>(
        ExpressionB(ExpressionA(inputArray)),
        inputArray).Compile();

Of course, in your real code you may have a more complicated expression. But at least for the example in your post, you don't even need the block or the intermediate local variable.

4
  • Thanks, Peter, this was indeed the source of my problem (incorrect usage of the first parameter of Expression.Block). Thanks again for your help. May 9 '17 at 22:51
  • Out of curiosity, in your second-to-last example, where you compile the two input expressions: am I correct in assuming that funcs like this (as invoked by return a => transformBCompiled(transformACompiled(a));) may get inlined just like regular methods?
    – Timo
    Mar 12 '20 at 13:28
  • 1
    @Timo: no, I don't believe that would be the case. The thing that is returned is simply a delegate instance, and the code that delegate instance invokes would be the invocation of the other two delegate instances, references stored in the two captured local variables transformACompiled and transformBCompiled. I don't see an opportunity for the compiler to inline anything there. Inlining means copying the code to be executed to the call site and foregoing the actual call, but that's never possible with delegates, because you never know where the call site actually may be. Mar 12 '20 at 16:09
  • @PeterDuniho Excellent point. The extra indirections are a good thing to be aware of. In performance-critical code, we might choose to invest the extra effort to create one single expression.
    – Timo
    Mar 16 '20 at 16:17

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