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134 lines
6.4 KiB
Plaintext
134 lines
6.4 KiB
Plaintext
namespace Eigen {
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/** \page TopicClassHierarchy The class hierarchy
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This page explains the design of the core classes in Eigen's class hierarchy and how they fit together. Casual
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users probably need not concern themselves with these details, but it may be useful for both advanced users
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and Eigen developers.
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<b>Table of contents</b>
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- \ref TopicClassHierarchyPrinciples
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- \ref TopicClassHierarchyCoreClasses
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- \ref TopicClassHierarchyBaseClasses
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- \ref TopicClassHierarchyInheritanceDiagrams
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\section TopicClassHierarchyPrinciples Principles
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Eigen's class hierarchy is designed so that virtual functions are avoided where their overhead would
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significantly impair performance. Instead, Eigen achieves polymorphism with the Curiously Recurring Template
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Pattern (CRTP). In this pattern, the base class (for instance, \c MatrixBase) is in fact a template class, and
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the derived class (for instance, \c Matrix) inherits the base class with the derived class itself as a
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template argument (in this case, \c Matrix inherits from \c MatrixBase<Matrix>). This allows Eigen to
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resolve the polymorphic function calls at compile time.
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In addition, the design avoids multiple inheritance. One reason for this is that in our experience, some
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compilers (like MSVC) fail to perform empty base class optimization, which is crucial for our fixed-size
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types.
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\section TopicClassHierarchyCoreClasses The core classes
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These are the classes that you need to know about if you want to write functions that accept or return Eigen
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objects.
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- Matrix means plain dense matrix. If \c m is a \c %Matrix, then, for instance, \c m+m is no longer a
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\c %Matrix, it is a "matrix expression".
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- MatrixBase means dense matrix expression. This means that a \c %MatrixBase is something that can be
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added, matrix-multiplied, LU-decomposed, QR-decomposed... All matrix expression classes, including
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\c %Matrix itself, inherit \c %MatrixBase.
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- Array means plain dense array. If \c x is an \c %Array, then, for instance, \c x+x is no longer an
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\c %Array, it is an "array expression".
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- ArrayBase means dense array expression. This means that an \c %ArrayBase is something that can be
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added, array-multiplied, and on which you can perform all sorts of array operations... All array
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expression classes, including \c %Array itself, inherit \c %ArrayBase.
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- DenseBase means dense (matrix or array) expression. Both \c %ArrayBase and \c %MatrixBase inherit
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\c %DenseBase. \c %DenseBase is where all the methods go that apply to dense expressions regardless of
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whether they are matrix or array expressions. For example, the \link DenseBase::block() block(...) \endlink
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methods are in \c %DenseBase.
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\section TopicClassHierarchyBaseClasses Base classes
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These classes serve as base classes for the five core classes mentioned above. They are more internal and so
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less interesting for users of the Eigen library.
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- DenseStorageBase means dense (matrix or array) plain object, i.e. something that stores its own dense
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array of coefficients. This is where, for instance, the \link DenseStorageBase::resize() resize() \endlink
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methods go. \c %DenseStorageBase is inherited by \c %Matrix and by \c %Array. But above, we said that
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\c %Matrix inherits \c %MatrixBase and \c %Array inherits \c %ArrayBase. So does that mean multiple
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inheritance? No, because \c %DenseStorageBase \e itself inherits \c %MatrixBase or \c %ArrayBase depending
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on whether we are in the matrix or array case. When we said above that \c %Matrix inherited
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\c %MatrixBase, we omitted to say it does so indirectly via \c %DenseStorageBase. Same for \c %Array.
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- DenseCoeffsBase means something that has dense coefficient accessors. It is a base class for
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\c %DenseBase. The reason for \c %DenseCoeffsBase to exist is that the set of available coefficient
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accessors is very different depending on whether a dense expression has direct memory access or not (the
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\c DirectAccessBit flag). For example, if \c x is a plain matrix, then \c x has direct access, and
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\c x.transpose() and \c x.block(...) also have direct access, because their coefficients can be read right
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off memory, but for example, \c x+x does not have direct memory access, because obtaining any of its
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coefficients requires a computation (an addition), it can't be just read off memory.
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- EigenBase means anything that can be evaluated into a plain dense matrix or array (even if that would
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be a bad idea). \c %EigenBase is really the absolute base class for anything that remotely looks like a
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matrix or array. It is a base class for \c %DenseCoeffsBase, so it sits below all our dense class
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hierarchy, but it is not limited to dense expressions. For example, \c %EigenBase is also inherited by
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diagonal matrices, sparse matrices, etc...
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\section TopicClassHierarchyInheritanceDiagrams Inheritance diagrams
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The inheritance diagram for Matrix looks as follows:
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<pre>
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EigenBase<%Matrix>
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<-- DenseCoeffsBase<%Matrix> (direct access case)
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<-- DenseBase<%Matrix>
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<-- MatrixBase<%Matrix>
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<-- DenseStorageBase<%Matrix> (matrix case)
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<-- Matrix
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</pre>
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The inheritance diagram for Array looks as follows:
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<pre>
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EigenBase<%Array>
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<-- DenseCoeffsBase<%Array> (direct access case)
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<-- DenseBase<%Array>
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<-- ArrayBase<%Array>
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<-- DenseStorageBase<%Array> (array case)
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<-- Array
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</pre>
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The inheritance diagram for some other matrix expression class, here denoted by \c SomeMatrixXpr, looks as
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follows:
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<pre>
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EigenBase<SomeMatrixXpr>
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<-- DenseCoeffsBase<SomeMatrixXpr> (direct access or no direct access case)
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<-- DenseBase<SomeMatrixXpr>
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<-- MatrixBase<SomeMatrixXpr>
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<-- SomeMatrixXpr
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</pre>
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The inheritance diagram for some other array expression class, here denoted by \c SomeArrayXpr, looks as
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follows:
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<pre>
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EigenBase<SomeArrayXpr>
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<-- DenseCoeffsBase<SomeArrayXpr> (direct access or no direct access case)
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<-- DenseBase<SomeArrayXpr>
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<-- ArrayBase<SomeArrayXpr>
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<-- SomeArrayXpr
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</pre>
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Finally, consider an example of something that is not a dense expression, for instance a diagonal matrix. The
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corresponding inheritance diagram is:
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<pre>
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EigenBase<%DiagonalMatrix>
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<-- DiagonalBase<%DiagonalMatrix>
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<-- DiagonalMatrix
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</pre>
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*/
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}
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