PEP 657: Update the public API and the opt-out mechanism (#1959)
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Pablo Galindo
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pep-0657.rst
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pep-0657.rst
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@ -17,16 +17,17 @@ Abstract
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========
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This PEP proposes adding a mapping from each bytecode instruction to the start
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and end column offsets of the line that generated them. This data will be used
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to improve tracebacks displayed by the CPython interpreter in order to improve
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the debugging experience. The PEP also proposes adding APIs that allow other
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tools (such as coverage analysis tools, profilers, tracers, debuggers) to
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consume this information from code objects.
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and end column offsets of the line that generated them as well as the end line
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number. This data will be used to improve tracebacks displayed by the CPython
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interpreter in order to improve the debugging experience. The PEP also proposes
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adding APIs that allow other tools (such as coverage analysis tools, profilers,
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tracers, debuggers) to consume this information from code objects.
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Motivation
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==========
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The primary motivation for this PEP is to improve the feedback presented about the location of errors to aid with debugging.
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The primary motivation for this PEP is to improve the feedback presented about
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the location of errors to aid with debugging.
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Python currently keeps a mapping of bytecode to line numbers from compilation.
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The interpreter uses this mapping to point to the source line associated with
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@ -150,51 +151,55 @@ instruction. This will have an impact on the size of ``pyc`` files on disk and
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the size of code objects in memory. The authors of this proposal have chosen
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the data types in a way that tries to minimize this impact. The proposed
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overhead is storing two ``uint8_t`` (one for the start offset and one for the
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end offset) for every bytecode instruction.
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end offset) and the end line information for every bytecode instruction (in
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the same encoded fashion as the start line is stored currently).
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As an illustrative example to gauge the impact of this change, we have
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calculated that this change will increase the size of the standard library’s
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pyc files by 22% (6MB) from 28.4MB to 34.7MB. The overhead in memory usage will be
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the same (assuming the *full standard library* is loaded into the same
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program). We believe that this is a very acceptable number since the order of
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magnitude of the overhead is very small, especially considering the storage
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size and memory capabilities of modern computers. Additionally, in general the
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memory size of a Python program is not dominated by code objects. To check this
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assumption we have executed the test suite of several popular PyPI projects
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(including NumPy, pytest, Django and Cython) as well as several applications
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(Black, pylint, mypy executed over either mypy or the standard library) and we
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found that code objects represent normally 3-6% of the average memory size of
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the program.
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calculated that including the start and end offsets will increase the size of
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the standard library’s pyc files by 22% (6MB) from 28.4MB to 34.7MB. The
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overhead in memory usage will be the same (assuming the *full standard library*
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is loaded into the same program). We believe that this is a very acceptable
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number since the order of magnitude of the overhead is very small, especially
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considering the storage size and memory capabilities of modern computers.
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Additionally, in general the memory size of a Python program is not dominated
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by code objects. To check this assumption we have executed the test suite of
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several popular PyPI projects (including NumPy, pytest, Django and Cython) as
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well as several applications (Black, pylint, mypy executed over either mypy or
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the standard library) and we found that code objects represent normally 3-6% of
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the average memory size of the program.
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We understand that the extra cost of this information may not be acceptable for
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some users, so we propose an opt-out mechanism when Python is executed in
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"opt-2" optimized mode (``python -OO``), which will cause pyc files to not include
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the extra information.
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some users, so we propose an opt-out mechanism which will cause generated code
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objects to not have the extra information while also allowing pyc files to not
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include the extra information.
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Specification
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=============
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In order to have enough information to correctly resolve the location within a
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given line where an error was raised, a map linking bytecode instructions and
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column offsets (start and end offset) is needed. This is similar in fashion to
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how line numbers are currently linked to bytecode instructions.
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In order to have enough information to correctly resolve the location
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within a given line where an error was raised, a map linking bytecode
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instructions to column offsets (start and end offset) and end line numbers
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is needed. This is similar in fashion to how line numbers are currently linked
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to bytecode instructions.
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The following changes will be performed as part of the implementation of this PEP:
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The following changes will be performed as part of the implementation of
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this PEP:
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* The offset information will be exposed to Python via a new attribute in the
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code object class called ``co_col_offsets`` that will return a sequence of
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two-element tuples (containing the start offsets and end offsets) or None if
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the code object was created without the offset information.
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* Two new C-API functions, ``PyCode_Addr2StartOffset`` and
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``PyCode_Addr2EndOffset`` will be added that can obtain the start and end
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offsets respectively given the index of a bytecode instruction. These
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functions will return 0 if the offset information is not available.
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* A new private (underscore prefixed) C-API constructor for code objects will
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be added that takes a bytes object containing the start offsets in the even
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position and the end offsets in the odd positions. Old constructors will be
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left untouched for backwards compatibility and will create code objects
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without the new field.
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code object class called ``co_positions`` that will return a sequence of
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four-element tuples containing the full location of every instruction
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(including start line, end line, start column offset and end column offset)
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or ``None`` if the code object was created without the offset information.
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* Three new C-API functions, ``PyCode_Addr2EndLine``, ``PyCode_Addr2StartOffset``
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and ``PyCode_Addr2EndOffset`` will be added that can obtain the end line, the
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start column offsets and the end column offset respectively given the index
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of a bytecode instruction. These functions will return 0 if the information
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is not available.
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The internal storage, compression and encoding of the information is left as an
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implementation detail and can be changed at any point as long as the public API
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remains unchanged.
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Offset semantics
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^^^^^^^^^^^^^^^^
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@ -209,14 +214,12 @@ We believe this is an acceptable compromise as line lengths in Python tend to
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be much lower than this limit (a query of the top 100 packages in PyPI shows
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that less than 0.01% of lines were longer than 255 characters).
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Maintaining the current behavior, only a single line will be displayed in
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tracebacks. For instructions that span multiple lines (the end offset and the
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start offset belong to different lines), the end offset will be set to 0
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(meaning it is unavailable). If the start offset is not 0, this will be
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interpreted by the displaying code as if the range spans from the starting
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offset to the end of the line. The actual end offset cannot be calculated at
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compile time since the compiler does not know how many characters “the end of
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the line” actually represents.
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As specified previously, the underlying storage of the offsets should be
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considered an implementation detail, as the public APIs to obtain this values
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will return either C ``int`` types or Python ``int`` objects, which allows to
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implement better compression/encoding in the future if bigger ranges would need
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to be supported. This PEP proposes to start with this simpler version and
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defer improvements to future work.
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Displaying tracebacks
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^^^^^^^^^^^^^^^^^^^^^
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@ -294,27 +297,37 @@ Will be displayed as::
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^^^
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ZeroDivisionError: division by zero
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Maintaining the current behavior, only a single line will be displayed
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in tracebacks. For instructions that span multiple lines (the end offset
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and the start offset belong to different lines), the end line number must
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be inspected to know if the end offset applies to the same line as the
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starting offset.
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Opt-out mechanism
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^^^^^^^^^^^^^^^^^
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To offer an opt-out mechanism for those users that care about the storage and
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memory overhead, the functionality will be deactivated along with the extra
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information when Python is executed in "opt-2" optimized mode (``python -OO``)
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resulting in ``pyc`` files not having the overhead associated with the extra
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required data.
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To offer an opt-out mechanism for those users that care about the
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storage and memory overhead and to allow third party tools and other
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programs that are currently parsing tracebacks to catch up the following
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methods will be provided to deactivate this feature:
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To allow third party tools and other programs that are currently parsing
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tracebacks to catch up and to allow users to deactivate the new feature, the
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following methods will be provided to deactivate displaying the new highlight
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carets (but not to avoid to storing the data, users will need to use Python in
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"opt-2" optimized mode for that):
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* A new environment variable: ``PYNODEBUGRANGES``.
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* A new command line option for the dev mode: ``python -Xnodebugranges``.
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* A new environment variable: ``PY_DEACTIVATE_TRACEBACK_RANGES``
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* A new command line option for the dev mode: ``python -Xnotracebackranges``.
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If any of these methods are used, the Python compiler will **not** populate
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code objects with the new information (``None`` will be used instead) and any
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unmarshalled code objects that contain the extra information will have it stripped
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away and replaced with ``None``). This method allows users to:
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These flags will be removed in the next version of the Python interpreter
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(counting from the version that releases this feature).
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* Create smaller ``pyc`` files by using one of the two methods when said files
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are created.
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* Don't load the extra information from ``pyc`` files if those were created with
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the extra information in the first place.
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Doing this has a **very small** performance hit as the interpreter state needs
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to be fetched when code objects are created to look up the configuration.
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Creating code objects is not a performance sensitive operation so this should
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not be a concern.
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Backwards Compatibility
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=======================
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