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I want to use boost::odeint to solve differential equations for different collections of variables- say of std::vector type- in parallel. One solution would of course be to combine all variables into a large vector which is then employed as state variable.

However, I would prefer a more elegant solution like employing boost::fusion as a state type which then holds the different vectors. As far as I understood from a posting and the implementation for a related problem, there is -in principle- no obstacle in doing so. I only miss a few hints for the concrete implementation- in particular concerning the right specification of

algebra, operations and resizing

required for the creation for example of an error stepper. Which of the existing implementations- e.g. odeint::fusion_algebra- can be used directly and what remains to done in this case?

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1 Answer 1

up vote 1 down vote accepted

Using boost::fusion compile time containers if fine with the fusion_algebra and the default_operations, as long as each of its elements support

  • Multiplication with a scalar (*)
  • Addition and subtraction (+,-)
  • Resizing

This is the case for the elementary floating point types, like double, float, or even std::complex. This is also the case for types supporting expression templates like the vector and matrix types from the MTL, boost::ublas, or vexcl and viennacl. But it is not possible for std::vector, since vectors do not implement or overload the appropriate +*-/ operators. In this case you have three possibilities

  1. Choose an vector type supporting expression templates
  2. Implement a nested algebra which iterates the fusion sequence with fusion's for_each and calls the correct for_each from the sub algebra
  3. Implement a custom operation which iterates over the elements of the fusion sequence.

Note 1: Resizing usually means, that if your type needs resizing you specialize is_resizable to a compile time true, for example via

is_resizable< YourType > : boost::true_type { };

and specialize resize_impl<> and same_size<>. Have a look at the default implementations. This is really ease and should be only a one-liner.

Note 2: If you also need step size control and you choose to take a vector type with expresson templates the operator / and the function max must exist and they must perform element-wise division and element-wise max. This might be tricky to implement. If you need some help feel free to contact us again.

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Thank you for your fast and detailed answer and for providing such a great library. As you guessed correctly I really require step size control and thus the easiest proposal won't work for me. Considering the amount of work required to make this work with boost::fusion, I will probably stick with a combined vector of value_types. Alternatively- is there perhaps an easy way to use valarray a state_type? Valarray does not provide an iterator and might thus not work out of the box? –  floyd85 Mar 11 '13 at 15:21
I have never used valarrays. It would be interesting to know if is works with odeint. But I would not recommend to use valarrays. They are seldom used. Going for vectors or some advanced vector types from MTL, ublas, Eigen, ... is usually the better alternative. –  headmyshoulder Mar 12 '13 at 14:09

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