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74 lines
3.8 KiB
Plaintext
74 lines
3.8 KiB
Plaintext
namespace Eigen {
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/** \eigenManualPage TopicStlContainers Using STL Containers with Eigen
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\eigenAutoToc
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\section StlContainers_summary Executive summary
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If you're compiling in \cpp17 mode only with a sufficiently recent compiler (e.g., GCC>=7, clang>=5, MSVC>=19.12), then everything is taken care by the compiler and you can stop reading.
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Otherwise, using STL containers on \ref TopicFixedSizeVectorizable "fixed-size vectorizable Eigen types", or classes having members of such types, requires the use of an over-aligned allocator.
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That is, an allocator capable of allocating buffers with 16, 32, or even 64 bytes alignment.
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%Eigen does provide one ready for use: aligned_allocator.
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Prior to \cpp11, if you want to use the `std::vector` container, then you also have to <code> \#include <Eigen/StdVector> </code>.
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These issues arise only with \ref TopicFixedSizeVectorizable "fixed-size vectorizable Eigen types" and \ref TopicStructHavingEigenMembers "structures having such Eigen objects as member".
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For other %Eigen types, such as Vector3f or MatrixXd, no special care is needed when using STL containers.
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\section allocator Using an aligned allocator
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STL containers take an optional template parameter, the allocator type. When using STL containers on \ref TopicFixedSizeVectorizable "fixed-size vectorizable Eigen types", you need tell the container to use an allocator that will always allocate memory at 16-byte-aligned (or more) locations. Fortunately, %Eigen does provide such an allocator: Eigen::aligned_allocator.
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For example, instead of
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\code
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std::map<int, Eigen::Vector4d>
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\endcode
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you need to use
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\code
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std::map<int, Eigen::Vector4d, std::less<int>,
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Eigen::aligned_allocator<std::pair<const int, Eigen::Vector4d> > >
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\endcode
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Note that the third parameter `std::less<int>` is just the default value, but we have to include it because we want to specify the fourth parameter, which is the allocator type.
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\section StlContainers_vector The case of std::vector
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This section is for c++98/03 users only. \cpp11 (or above) users can stop reading here.
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So in c++98/03, the situation with `std::vector` is more complicated because of a bug in the standard (explanation below).
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To workaround the issue, we had to specialize it for the Eigen::aligned_allocator type.
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In practice you \b must use the Eigen::aligned_allocator (not another aligned allocator), \b and \#include <Eigen/StdVector>.
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Here is an example:
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\code
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#include<Eigen/StdVector>
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/* ... */
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std::vector<Eigen::Vector4f,Eigen::aligned_allocator<Eigen::Vector4f> >
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\endcode
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<span class="note">\b Explanation: The `resize()` method of `std::vector` takes a `value_type` argument (defaulting to `value_type()`). So with `std::vector<Eigen::Vector4d>`, some Eigen::Vector4d objects will be passed by value, which discards any alignment modifiers, so a Eigen::Vector4d can be created at an unaligned location.
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In order to avoid that, the only solution we saw was to specialize `std::vector` to make it work on a slight modification of, here, Eigen::Vector4d, that is able to deal properly with this situation.
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</span>
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\subsection vector_spec An alternative - specializing std::vector for Eigen types
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As an alternative to the recommended approach described above, you have the option to specialize std::vector for Eigen types requiring alignment.
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The advantage is that you won't need to declare std::vector all over with Eigen::aligned_allocator. One drawback on the other hand side is that
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the specialization needs to be defined before all code pieces in which e.g. `std::vector<Vector2d>` is used. Otherwise, without knowing the specialization
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the compiler will compile that particular instance with the default `std::allocator` and you program is most likely to crash.
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Here is an example:
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\code
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#include<Eigen/StdVector>
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/* ... */
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EIGEN_DEFINE_STL_VECTOR_SPECIALIZATION(Matrix2d)
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std::vector<Eigen::Vector2d>
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\endcode
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*/
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}
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