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138 lines
5.0 KiB
Plaintext
138 lines
5.0 KiB
Plaintext
namespace Eigen {
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/** \page TopicNewExpressionType Adding a new expression type
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This page describes with the help of an example how to implement a new
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light-weight expression type in %Eigen. This consists of three parts:
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the expression type itself, a traits class containing compile-time
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information about the expression, and the evaluator class which is
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used to evaluate the expression to a matrix.
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\b TO \b DO: Write a page explaining the design, with details on
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vectorization etc., and refer to that page here.
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\eigenAutoToc
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\section TopicSetting The setting
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A circulant matrix is a matrix where each column is the same as the
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column to the left, except that it is cyclically shifted downwards.
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For example, here is a 4-by-4 circulant matrix:
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\f[ \begin{bmatrix}
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1 & 8 & 4 & 2 \\
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2 & 1 & 8 & 4 \\
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4 & 2 & 1 & 8 \\
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8 & 4 & 2 & 1
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\end{bmatrix} \f]
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A circulant matrix is uniquely determined by its first column. We wish
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to write a function \c makeCirculant which, given the first column,
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returns an expression representing the circulant matrix.
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For simplicity, we restrict the \c makeCirculant function to dense
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matrices. It may make sense to also allow arrays, or sparse matrices,
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but we will not do so here. We also do not want to support
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vectorization.
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\section TopicPreamble Getting started
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We will present the file implementing the \c makeCirculant function
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part by part. We start by including the appropriate header files and
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forward declaring the expression class, which we will call
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\c Circulant. The \c makeCirculant function will return an object of
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this type. The class \c Circulant is in fact a class template; the
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template argument \c ArgType refers to the type of the vector passed
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to the \c makeCirculant function.
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\include make_circulant.cpp.preamble
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\section TopicTraits The traits class
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For every expression class \c X, there should be a traits class
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\c Traits<X> in the \c Eigen::internal namespace containing
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information about \c X known as compile time.
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As explained in \ref TopicSetting, we designed the \c Circulant
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expression class to refer to dense matrices. The entries of the
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circulant matrix have the same type as the entries of the vector
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passed to the \c makeCirculant function. The type used to index the
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entries is also the same. Again for simplicity, we will only return
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column-major matrices. Finally, the circulant matrix is a square
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matrix (number of rows equals number of columns), and the number of
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rows equals the number of rows of the column vector passed to the
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\c makeCirculant function. If this is a dynamic-size vector, then the
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size of the circulant matrix is not known at compile-time.
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This leads to the following code:
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\include make_circulant.cpp.traits
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\section TopicExpression The expression class
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The next step is to define the expression class itself. In our case,
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we want to inherit from \c MatrixBase in order to expose the interface
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for dense matrices. In the constructor, we check that we are passed a
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column vector (see \ref TopicAssertions) and we store the vector from
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which we are going to build the circulant matrix in the member
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variable \c m_arg. Finally, the expression class should compute the
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size of the corresponding circulant matrix. As explained above, this
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is a square matrix with as many columns as the vector used to
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construct the matrix.
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\b TO \b DO: What about the \c Nested typedef? It seems to be
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necessary; is this only temporary?
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\include make_circulant.cpp.expression
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\section TopicEvaluator The evaluator
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The last big fragment implements the evaluator for the \c Circulant
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expression. The evaluator computes the entries of the circulant
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matrix; this is done in the \c .coeff() member function. The entries
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are computed by finding the corresponding entry of the vector from
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which the circulant matrix is constructed. Getting this entry may
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actually be non-trivial when the circulant matrix is constructed from
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a vector which is given by a complicated expression, so we use the
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evaluator which corresponds to the vector.
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The \c CoeffReadCost constant records the cost of computing an entry
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of the circulant matrix; we ignore the index computation and say that
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this is the same as the cost of computing an entry of the vector from
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which the circulant matrix is constructed.
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In the constructor, we save the evaluator for the column vector which
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defined the circulant matrix. We also save the size of that vector;
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remember that we can query an expression object to find the size but
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not the evaluator.
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\include make_circulant.cpp.evaluator
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\section TopicEntry The entry point
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After all this, the \c makeCirculant function is very simple. It
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simply creates an expression object and returns it.
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\include make_circulant.cpp.entry
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\section TopicMain A simple main function for testing
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Finally, a short \c main function that shows how the \c makeCirculant
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function can be called.
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\include make_circulant.cpp.main
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If all the fragments are combined, the following output is produced,
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showing that the program works as expected:
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\verbinclude make_circulant.out
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*/
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}
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