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tempestpy/resources/pybind11/docs/intro.rst

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extracted from storm repo, refactored formula
8 years ago
  1. .. image:: pybind11-logo.png
  3. About this project
  4. ==================
  5. **pybind11** is a lightweight header-only library that exposes C++ types in Python
  6. and vice versa, mainly to create Python bindings of existing C++ code. Its
  7. goals and syntax are similar to the excellent `Boost.Python`_ library by David
  8. Abrahams: to minimize boilerplate code in traditional extension modules by
  9. inferring type information using compile-time introspection.
  11. .. _Boost.Python: http://www.boost.org/doc/libs/release/libs/python/doc/index.html
  13. The main issue with Boost.Python—and the reason for creating such a similar
  14. project—is Boost. Boost is an enormously large and complex suite of utility
  15. libraries that works with almost every C++ compiler in existence. This
  16. compatibility has its cost: arcane template tricks and workarounds are
  17. necessary to support the oldest and buggiest of compiler specimens. Now that
  18. C++11-compatible compilers are widely available, this heavy machinery has
  19. become an excessively large and unnecessary dependency.
  21. Think of this library as a tiny self-contained version of Boost.Python with
  22. everything stripped away that isn't relevant for binding generation. Without
  23. comments, the core header files only require ~2.5K lines of code and depend on
  24. Python (2.7 or 3.x) and the C++ standard library. This compact implementation
  25. was possible thanks to some of the new C++11 language features (specifically:
  26. tuples, lambda functions and variadic templates). Since its creation, this
  27. library has grown beyond Boost.Python in many ways, leading to dramatically
  28. simpler binding code in many common situations.
  30. Core features
  31. *************
  32. The following core C++ features can be mapped to Python
  34. - Functions accepting and returning custom data structures per value, reference, or pointer
  35. - Instance methods and static methods
  36. - Overloaded functions
  37. - Instance attributes and static attributes
  38. - Arbitrary exception types
  39. - Enumerations
  40. - Callbacks
  41. - Iterators and ranges
  42. - Custom operators
  43. - Single and multiple inheritance
  44. - STL data structures
  45. - Iterators and ranges
  46. - Smart pointers with reference counting like ``std::shared_ptr``
  47. - Internal references with correct reference counting
  48. - C++ classes with virtual (and pure virtual) methods can be extended in Python
  50. Goodies
  51. *******
  52. In addition to the core functionality, pybind11 provides some extra goodies:
  54. - It is possible to bind C++11 lambda functions with captured variables. The
  55. lambda capture data is stored inside the resulting Python function object.
  57. - pybind11 uses C++11 move constructors and move assignment operators whenever
  58. possible to efficiently transfer custom data types.
  60. - It's easy to expose the internal storage of custom data types through
  61. Pythons' buffer protocols. This is handy e.g. for fast conversion between
  62. C++ matrix classes like Eigen and NumPy without expensive copy operations.
  64. - pybind11 can automatically vectorize functions so that they are transparently
  65. applied to all entries of one or more NumPy array arguments.
  67. - Python's slice-based access and assignment operations can be supported with
  68. just a few lines of code.
  70. - Everything is contained in just a few header files; there is no need to link
  71. against any additional libraries.
  73. - Binaries are generally smaller by a factor of at least 2 compared to
  74. equivalent bindings generated by Boost.Python. A recent pybind11 conversion
  75. of `PyRosetta`_, an enormous Boost.Python binding project, reported a binary
  76. size reduction of **5.4x** and compile time reduction by **5.8x**.
  78. - When supported by the compiler, two new C++14 features (relaxed constexpr and
  79. return value deduction) are used to precompute function signatures at compile
  80. time, leading to smaller binaries.
  82. - With little extra effort, C++ types can be pickled and unpickled similar to
  83. regular Python objects.
  85. .. _PyRosetta: http://graylab.jhu.edu/RosettaCon2016/PyRosetta-4.pdf
  87. Supported compilers
  88. *******************
  90. 1. Clang/LLVM (any non-ancient version with C++11 support)
  91. 2. GCC (any non-ancient version with C++11 support)
  92. 3. Microsoft Visual Studio 2015 or newer
  93. 4. Intel C++ compiler v15 or newer