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Mypyc Implementation Overview
Mypyc compiles a Python module (or a set of modules) to C, and compiles the generated C to a Python C extension module (or modules). You can compile only a subset of your program to C -- compiled and interpreted code can freely and transparently interact. You can also freely use any Python libraries (including C extensions) in compiled code.
Mypyc will only make compiled code faster. To see a significant speedup, you must make sure that most of the time is spent in compiled code -- and not in libraries, for example.
Mypyc has these compilation passes:
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Type check the code using mypy and infer types for variables and expressions. This produces a mypy AST (defined in
mypy.nodes) and a type map that describes the inferred types (mypy.types.Type) of all expressions (as PEP 484 types). -
Translate the mypy AST into a mypyc-specific intermediate representation (IR).
- The IR is defined in
mypyc.ir(see here for an explanation of the IR). - Various primitive operations used in the IR are defined in
mypyc.primitives. - The translation to IR happens in
mypyc.irbuild. The top-level logic is inmypyc.irbuild.main.
- The IR is defined in
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Insert checks for uses of potentially uninitialized variables (
mypyc.transform.uninit). -
Insert exception handling (
mypyc.transform.exceptions). -
Insert explicit reference count inc/dec opcodes (
mypyc.transform.refcount). -
Translate the IR into C (
mypyc.codegen). -
Compile the generated C code using a C compiler (
mypyc.build).
Details of the mypyc implementation are described in these pages: