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177 lines
9.1 KiB
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177 lines
9.1 KiB
Plaintext
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//- 💫 DOCS > API > CYTHON > ARCHITECTURE
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include ../_includes/_mixins
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+section("overview")
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+aside("What's Cython?")
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| #[+a("http://cython.org/") Cython] is a language for writing
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| C extensions for Python. Most Python code is also valid Cython, but
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| you can add type declarations to get efficient memory-managed code
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| just like C or C++.
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p
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| This section documents spaCy's C-level data structures and
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| interfaces, intended for use from Cython. Some of the attributes are
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| primarily for internal use, and all C-level functions and methods are
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| designed for speed over safety – if you make a mistake and access an
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| array out-of-bounds, the program may crash abruptly.
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p
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| With Cython there are four ways of declaring complex data types.
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| Unfortunately we use all four in different places, as they all have
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| different utility:
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+table(["Declaration", "Description", "Example"])
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+row
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+cell #[code class]
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+cell A normal Python class.
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+cell #[+api("language") #[code Language]]
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+row
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+cell #[code cdef class]
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+cell
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| A Python extension type. Differs from a normal Python class
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| in that its attributes can be defined on the underlying
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| struct. Can have C-level objects as attributes (notably
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| structs and pointers), and can have methods which have
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| C-level objects as arguments or return types.
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+cell #[+api("cython-classes#lexeme") #[code Lexeme]]
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+row
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+cell #[code cdef struct]
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+cell
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| A struct is just a collection of variables, sort of like a
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| named tuple, except the memory is contiguous. Structs can't
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| have methods, only attributes.
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+cell #[+api("cython-structs#lexemec") #[code LexemeC]]
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+row
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+cell #[code cdef cppclass]
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+cell
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| A C++ class. Like a struct, this can be allocated on the
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| stack, but can have methods, a constructor and a destructor.
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| Differs from `cdef class` in that it can be created and
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| destroyed without acquiring the Python global interpreter
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| lock. This style is the most obscure.
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+cell #[+src(gh("spacy", "spacy/syntax/_state.pxd")) #[code StateC]]
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p
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| The most important classes in spaCy are defined as #[code cdef class]
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| objects. The underlying data for these objects is usually gathered
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| into a struct, which is usually named #[code c]. For instance, the
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| #[+api("cython-classses#lexeme") #[code Lexeme]] class holds a
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| #[+api("cython-structs#lexemec") #[code LexemeC]] struct, at
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| #[code Lexeme.c]. This lets you shed the Python container, and pass
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| a pointer to the underlying data into C-level functions.
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+section("conventions")
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+h(2, "conventions") Conventions
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p
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| spaCy's core data structures are implemented as
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| #[+a("http://cython.org/") Cython] #[code cdef] classes. Memory is
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| managed through the #[+a(gh("cymem")) #[code cymem]]
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| #[code cymem.Pool] class, which allows you
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| to allocate memory which will be freed when the #[code Pool] object
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| is garbage collected. This means you usually don't have to worry
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| about freeing memory. You just have to decide which Python object
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| owns the memory, and make it own the #[code Pool]. When that object
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| goes out of scope, the memory will be freed. You do have to take
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| care that no pointers outlive the object that owns them — but this
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| is generally quite easy.
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p
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| All Cython modules should have the #[code # cython: infer_types=True]
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| compiler directive at the top of the file. This makes the code much
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| cleaner, as it avoids the need for many type declarations. If
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| possible, you should prefer to declare your functions #[code nogil],
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| even if you don't especially care about multi-threading. The reason
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| is that #[code nogil] functions help the Cython compiler reason about
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| your code quite a lot — you're telling the compiler that no Python
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| dynamics are possible. This lets many errors be raised, and ensures
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| your function will run at C speed.
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p
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| Cython gives you many choices of sequences: you could have a Python
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| list, a numpy array, a memory view, a C++ vector, or a pointer.
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| Pointers are preferred, because they are fastest, have the most
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| explicit semantics, and let the compiler check your code more
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| strictly. C++ vectors are also great — but you should only use them
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| internally in functions. It's less friendly to accept a vector as an
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| argument, because that asks the user to do much more work. Here's
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| how to get a pointer from a numpy array, memory view or vector:
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+code.
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cdef void get_pointers(np.ndarray[int, mode='c'] numpy_array, vector[int] cpp_vector, int[::1] memory_view) nogil:
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pointer1 = <int*>numpy_array.data
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pointer2 = cpp_vector.data()
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pointer3 = &memory_view[0]
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p
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| Both C arrays and C++ vectors reassure the compiler that no Python
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| operations are possible on your variable. This is a big advantage:
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| it lets the Cython compiler raise many more errors for you.
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p
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| When getting a pointer from a numpy array or memoryview, take care
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| that the data is actually stored in C-contiguous order — otherwise
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| you'll get a pointer to nonsense. The type-declarations in the code
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| above should generate runtime errors if buffers with incorrect
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| memory layouts are passed in. To iterate over the array, the
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| following style is preferred:
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+code.
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cdef int c_total(const int* int_array, int length) nogil:
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total = 0
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for item in int_array[:length]:
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total += item
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return total
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p
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| If this is confusing, consider that the compiler couldn't deal with
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| #[code for item in int_array:] — there's no length attached to a raw
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| pointer, so how could we figure out where to stop? The length is
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| provided in the slice notation as a solution to this. Note that we
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| don't have to declare the type of #[code item] in the code above —
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| the compiler can easily infer it. This gives us tidy code that looks
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| quite like Python, but is exactly as fast as C — because we've made
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| sure the compilation to C is trivial.
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p
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| Your functions cannot be declared #[code nogil] if they need to
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| create Python objects or call Python functions. This is perfectly
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| okay — you shouldn't torture your code just to get #[code nogil]
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| functions. However, if your function isn't #[code nogil], you should
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| compile your module with #[code cython -a --cplus my_module.pyx] and
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| open the resulting #[code my_module.html] file in a browser. This
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| will let you see how Cython is compiling your code. Calls into the
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| Python run-time will be in bright yellow. This lets you easily see
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| whether Cython is able to correctly type your code, or whether there
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| are unexpected problems.
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p
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| Working in Cython is very rewarding once you're over the initial
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| learning curve. As with C and C++, the first way you write something
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| in Cython will often be the performance-optimal approach. In
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| contrast, Python optimisation generally requires a lot of
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| experimentation. Is it faster to have an #[code if item in my_dict]
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| check, or to use #[code .get()]? What about
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| #[code try]/#[code except]? Does this numpy operation create a copy?
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| There's no way to guess the answers to these questions, and you'll
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| usually be dissatisfied with your results — so there's no way to
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| know when to stop this process. In the worst case, you'll make a
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| mess that invites the next reader to try their luck too. This is
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| like one of those
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| #[+a("http://www.wemjournal.org/article/S1080-6032%2809%2970088-2/abstract") volcanic gas-traps],
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| where the rescuers keep passing out from low oxygen, causing
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| another rescuer to follow — only to succumb themselves. In short,
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| just say no to optimizing your Python. If it's not fast enough the
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| first time, just switch to Cython.
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+infobox("Resources")
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+list.o-no-block
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+item #[+a("http://docs.cython.org/en/latest/") Official Cython documentation] (cython.org)
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+item #[+a("https://explosion.ai/blog/writing-c-in-cython", true) Writing C in Cython] (explosion.ai)
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+item #[+a("https://explosion.ai/blog/multithreading-with-cython") Multi-threading spaCy’s parser and named entity recogniser] (explosion.ai)
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