test-kivy-app/kivy_venv/lib/python3.11/site-packages/Cython/Compiler/Options.py

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#
# Cython - Compilation-wide options and pragma declarations
#
from __future__ import absolute_import
class ShouldBeFromDirective(object):
known_directives = []
def __init__(self, options_name, directive_name=None, disallow=False):
self.options_name = options_name
self.directive_name = directive_name or options_name
self.disallow = disallow
self.known_directives.append(self)
def __nonzero__(self):
self._bad_access()
def __int__(self):
self._bad_access()
def _bad_access(self):
raise RuntimeError(repr(self))
def __repr__(self):
return (
"Illegal access of '%s' from Options module rather than directive '%s'"
% (self.options_name, self.directive_name))
"""
The members of this module are documented using autodata in
Cython/docs/src/reference/compilation.rst.
See http://www.sphinx-doc.org/en/master/ext/autodoc.html#directive-autoattribute
for how autodata works.
Descriptions of those members should start with a #:
Donc forget to keep the docs in sync by removing and adding
the members in both this file and the .rst file.
"""
#: Whether or not to include docstring in the Python extension. If False, the binary size
#: will be smaller, but the ``__doc__`` attribute of any class or function will be an
#: empty string.
docstrings = True
#: Embed the source code position in the docstrings of functions and classes.
embed_pos_in_docstring = False
#: Copy the original source code line by line into C code comments
#: in the generated code file to help with understanding the output.
#: This is also required for coverage analysis.
emit_code_comments = True
# undocumented
pre_import = None
#: Decref global variables in each module on exit for garbage collection.
#: 0: None, 1+: interned objects, 2+: cdef globals, 3+: types objects
#: Mostly for reducing noise in Valgrind as it typically executes at process exit
#: (when all memory will be reclaimed anyways).
#: Note that directly or indirectly executed cleanup code that makes use of global
#: variables or types may no longer be safe when enabling the respective level since
#: there is no guaranteed order in which the (reference counted) objects will
#: be cleaned up. The order can change due to live references and reference cycles.
generate_cleanup_code = False
#: Should tp_clear() set object fields to None instead of clearing them to NULL?
clear_to_none = True
#: Generate an annotated HTML version of the input source files for debugging and optimisation purposes.
#: This has the same effect as the ``annotate`` argument in :func:`cythonize`.
annotate = False
# When annotating source files in HTML, include coverage information from
# this file.
annotate_coverage_xml = None
#: This will abort the compilation on the first error occurred rather than trying
#: to keep going and printing further error messages.
fast_fail = False
#: Turn all warnings into errors.
warning_errors = False
#: Make unknown names an error. Python raises a NameError when
#: encountering unknown names at runtime, whereas this option makes
#: them a compile time error. If you want full Python compatibility,
#: you should disable this option and also 'cache_builtins'.
error_on_unknown_names = True
#: Make uninitialized local variable reference a compile time error.
#: Python raises UnboundLocalError at runtime, whereas this option makes
#: them a compile time error. Note that this option affects only variables
#: of "python object" type.
error_on_uninitialized = True
#: This will convert statements of the form ``for i in range(...)``
#: to ``for i from ...`` when ``i`` is a C integer type, and the direction
#: (i.e. sign of step) can be determined.
#: WARNING: This may change the semantics if the range causes assignment to
#: i to overflow. Specifically, if this option is set, an error will be
#: raised before the loop is entered, whereas without this option the loop
#: will execute until an overflowing value is encountered.
convert_range = True
#: Perform lookups on builtin names only once, at module initialisation
#: time. This will prevent the module from getting imported if a
#: builtin name that it uses cannot be found during initialisation.
#: Default is True.
#: Note that some legacy builtins are automatically remapped
#: from their Python 2 names to their Python 3 names by Cython
#: when building in Python 3.x,
#: so that they do not get in the way even if this option is enabled.
cache_builtins = True
#: Generate branch prediction hints to speed up error handling etc.
gcc_branch_hints = True
#: Enable this to allow one to write ``your_module.foo = ...`` to overwrite the
#: definition if the cpdef function foo, at the cost of an extra dictionary
#: lookup on every call.
#: If this is false it generates only the Python wrapper and no override check.
lookup_module_cpdef = False
#: Whether or not to embed the Python interpreter, for use in making a
#: standalone executable or calling from external libraries.
#: This will provide a C function which initialises the interpreter and
#: executes the body of this module.
#: See `this demo <https://github.com/cython/cython/tree/master/Demos/embed>`_
#: for a concrete example.
#: If true, the initialisation function is the C main() function, but
#: this option can also be set to a non-empty string to provide a function name explicitly.
#: Default is False.
embed = None
# In previous iterations of Cython, globals() gave the first non-Cython module
# globals in the call stack. Sage relies on this behavior for variable injection.
old_style_globals = ShouldBeFromDirective('old_style_globals')
#: Allows cimporting from a pyx file without a pxd file.
cimport_from_pyx = False
#: Maximum number of dimensions for buffers -- set lower than number of
#: dimensions in numpy, as
#: slices are passed by value and involve a lot of copying.
buffer_max_dims = 8
#: Number of function closure instances to keep in a freelist (0: no freelists)
closure_freelist_size = 8
def get_directive_defaults():
# To add an item to this list, all accesses should be changed to use the new
# directive, and the global option itself should be set to an instance of
# ShouldBeFromDirective.
for old_option in ShouldBeFromDirective.known_directives:
value = globals().get(old_option.options_name)
assert old_option.directive_name in _directive_defaults
if not isinstance(value, ShouldBeFromDirective):
if old_option.disallow:
raise RuntimeError(
"Option '%s' must be set from directive '%s'" % (
old_option.option_name, old_option.directive_name))
else:
# Warn?
_directive_defaults[old_option.directive_name] = value
return _directive_defaults
# Declare compiler directives
_directive_defaults = {
'boundscheck' : True,
'nonecheck' : False,
'initializedcheck' : True,
'embedsignature' : False,
'auto_cpdef': False,
'auto_pickle': None,
'cdivision': False, # was True before 0.12
'cdivision_warnings': False,
'c_api_binop_methods': True,
'cpow': True,
'overflowcheck': False,
'overflowcheck.fold': True,
'always_allow_keywords': False,
'allow_none_for_extension_args': True,
'wraparound' : True,
'ccomplex' : False, # use C99/C++ for complex types and arith
'callspec' : "",
'nogil' : False,
'profile': False,
'linetrace': False,
'emit_code_comments': True, # copy original source code into C code comments
'annotation_typing': True, # read type declarations from Python function annotations
'infer_types': None,
'infer_types.verbose': False,
'autotestdict': True,
'autotestdict.cdef': False,
'autotestdict.all': False,
'language_level': None,
'fast_getattr': False, # Undocumented until we come up with a better way to handle this everywhere.
'py2_import': False, # For backward compatibility of Cython's source code in Py3 source mode
'preliminary_late_includes_cy28': False, # Temporary directive in 0.28, to be removed in a later version (see GH#2079).
'iterable_coroutine': False, # Make async coroutines backwards compatible with the old asyncio yield-from syntax.
'c_string_type': 'bytes',
'c_string_encoding': '',
'type_version_tag': True, # enables Py_TPFLAGS_HAVE_VERSION_TAG on extension types
'unraisable_tracebacks': True,
'old_style_globals': False,
'np_pythran': False,
'fast_gil': False,
# set __file__ and/or __path__ to known source/target path at import time (instead of not having them available)
'set_initial_path' : None, # SOURCEFILE or "/full/path/to/module"
'warn': None,
'warn.undeclared': False,
'warn.unreachable': True,
'warn.maybe_uninitialized': False,
'warn.unused': False,
'warn.unused_arg': False,
'warn.unused_result': False,
'warn.multiple_declarators': True,
# optimizations
'optimize.inline_defnode_calls': True,
'optimize.unpack_method_calls': True, # increases code size when True
'optimize.unpack_method_calls_in_pyinit': False, # uselessly increases code size when True
'optimize.use_switch': True,
# remove unreachable code
'remove_unreachable': True,
# control flow debug directives
'control_flow.dot_output': "", # Graphviz output filename
'control_flow.dot_annotate_defs': False, # Annotate definitions
# test support
'test_assert_path_exists' : [],
'test_fail_if_path_exists' : [],
# experimental, subject to change
'binding': None,
'formal_grammar': False,
}
# Extra warning directives
extra_warnings = {
'warn.maybe_uninitialized': True,
'warn.unreachable': True,
'warn.unused': True,
}
def one_of(*args):
def validate(name, value):
if value not in args:
raise ValueError("%s directive must be one of %s, got '%s'" % (
name, args, value))
else:
return value
return validate
def normalise_encoding_name(option_name, encoding):
"""
>>> normalise_encoding_name('c_string_encoding', 'ascii')
'ascii'
>>> normalise_encoding_name('c_string_encoding', 'AsCIi')
'ascii'
>>> normalise_encoding_name('c_string_encoding', 'us-ascii')
'ascii'
>>> normalise_encoding_name('c_string_encoding', 'utF8')
'utf8'
>>> normalise_encoding_name('c_string_encoding', 'utF-8')
'utf8'
>>> normalise_encoding_name('c_string_encoding', 'deFAuLT')
'default'
>>> normalise_encoding_name('c_string_encoding', 'default')
'default'
>>> normalise_encoding_name('c_string_encoding', 'SeriousLyNoSuch--Encoding')
'SeriousLyNoSuch--Encoding'
"""
if not encoding:
return ''
if encoding.lower() in ('default', 'ascii', 'utf8'):
return encoding.lower()
import codecs
try:
decoder = codecs.getdecoder(encoding)
except LookupError:
return encoding # may exists at runtime ...
for name in ('ascii', 'utf8'):
if codecs.getdecoder(name) == decoder:
return name
return encoding
# Override types possibilities above, if needed
directive_types = {
'language_level': str, # values can be None/2/3/'3str', where None == 2+warning
'auto_pickle': bool,
'locals': dict,
'final' : bool, # final cdef classes and methods
'nogil' : bool,
'internal' : bool, # cdef class visibility in the module dict
'infer_types' : bool, # values can be True/None/False
'binding' : bool,
'cfunc' : None, # decorators do not take directive value
'ccall' : None,
'inline' : None,
'staticmethod' : None,
'cclass' : None,
'no_gc_clear' : bool,
'no_gc' : bool,
'returns' : type,
'exceptval': type, # actually (type, check=True/False), but has its own parser
'set_initial_path': str,
'freelist': int,
'c_string_type': one_of('bytes', 'bytearray', 'str', 'unicode'),
'c_string_encoding': normalise_encoding_name,
'cpow': bool
}
for key, val in _directive_defaults.items():
if key not in directive_types:
directive_types[key] = type(val)
directive_scopes = { # defaults to available everywhere
# 'module', 'function', 'class', 'with statement'
'auto_pickle': ('module', 'cclass'),
'final' : ('cclass', 'function'),
'nogil' : ('function', 'with statement'),
'inline' : ('function',),
'cfunc' : ('function', 'with statement'),
'ccall' : ('function', 'with statement'),
'returns' : ('function',),
'exceptval' : ('function',),
'locals' : ('function',),
'staticmethod' : ('function',), # FIXME: analysis currently lacks more specific function scope
'no_gc_clear' : ('cclass',),
'no_gc' : ('cclass',),
'internal' : ('cclass',),
'cclass' : ('class', 'cclass', 'with statement'),
'autotestdict' : ('module',),
'autotestdict.all' : ('module',),
'autotestdict.cdef' : ('module',),
'set_initial_path' : ('module',),
'test_assert_path_exists' : ('function', 'class', 'cclass'),
'test_fail_if_path_exists' : ('function', 'class', 'cclass'),
'freelist': ('cclass',),
'emit_code_comments': ('module',),
'annotation_typing': ('module',), # FIXME: analysis currently lacks more specific function scope
# Avoid scope-specific to/from_py_functions for c_string.
'c_string_type': ('module',),
'c_string_encoding': ('module',),
'type_version_tag': ('module', 'cclass'),
'language_level': ('module',),
# globals() could conceivably be controlled at a finer granularity,
# but that would complicate the implementation
'old_style_globals': ('module',),
'np_pythran': ('module',),
'fast_gil': ('module',),
'iterable_coroutine': ('module', 'function'),
}
def parse_directive_value(name, value, relaxed_bool=False):
"""
Parses value as an option value for the given name and returns
the interpreted value. None is returned if the option does not exist.
>>> print(parse_directive_value('nonexisting', 'asdf asdfd'))
None
>>> parse_directive_value('boundscheck', 'True')
True
>>> parse_directive_value('boundscheck', 'true')
Traceback (most recent call last):
...
ValueError: boundscheck directive must be set to True or False, got 'true'
>>> parse_directive_value('c_string_encoding', 'us-ascii')
'ascii'
>>> parse_directive_value('c_string_type', 'str')
'str'
>>> parse_directive_value('c_string_type', 'bytes')
'bytes'
>>> parse_directive_value('c_string_type', 'bytearray')
'bytearray'
>>> parse_directive_value('c_string_type', 'unicode')
'unicode'
>>> parse_directive_value('c_string_type', 'unnicode')
Traceback (most recent call last):
ValueError: c_string_type directive must be one of ('bytes', 'bytearray', 'str', 'unicode'), got 'unnicode'
"""
type = directive_types.get(name)
if not type:
return None
orig_value = value
if type is bool:
value = str(value)
if value == 'True':
return True
if value == 'False':
return False
if relaxed_bool:
value = value.lower()
if value in ("true", "yes"):
return True
elif value in ("false", "no"):
return False
raise ValueError("%s directive must be set to True or False, got '%s'" % (
name, orig_value))
elif type is int:
try:
return int(value)
except ValueError:
raise ValueError("%s directive must be set to an integer, got '%s'" % (
name, orig_value))
elif type is str:
return str(value)
elif callable(type):
return type(name, value)
else:
assert False
def parse_directive_list(s, relaxed_bool=False, ignore_unknown=False,
current_settings=None):
"""
Parses a comma-separated list of pragma options. Whitespace
is not considered.
>>> parse_directive_list(' ')
{}
>>> (parse_directive_list('boundscheck=True') ==
... {'boundscheck': True})
True
>>> parse_directive_list(' asdf')
Traceback (most recent call last):
...
ValueError: Expected "=" in option "asdf"
>>> parse_directive_list('boundscheck=hey')
Traceback (most recent call last):
...
ValueError: boundscheck directive must be set to True or False, got 'hey'
>>> parse_directive_list('unknown=True')
Traceback (most recent call last):
...
ValueError: Unknown option: "unknown"
>>> warnings = parse_directive_list('warn.all=True')
>>> len(warnings) > 1
True
>>> sum(warnings.values()) == len(warnings) # all true.
True
"""
if current_settings is None:
result = {}
else:
result = current_settings
for item in s.split(','):
item = item.strip()
if not item:
continue
if '=' not in item:
raise ValueError('Expected "=" in option "%s"' % item)
name, value = [s.strip() for s in item.strip().split('=', 1)]
if name not in _directive_defaults:
found = False
if name.endswith('.all'):
prefix = name[:-3]
for directive in _directive_defaults:
if directive.startswith(prefix):
found = True
parsed_value = parse_directive_value(directive, value, relaxed_bool=relaxed_bool)
result[directive] = parsed_value
if not found and not ignore_unknown:
raise ValueError('Unknown option: "%s"' % name)
else:
parsed_value = parse_directive_value(name, value, relaxed_bool=relaxed_bool)
result[name] = parsed_value
return result
def parse_variable_value(value):
"""
Parses value as an option value for the given name and returns
the interpreted value.
>>> parse_variable_value('True')
True
>>> parse_variable_value('true')
'true'
>>> parse_variable_value('us-ascii')
'us-ascii'
>>> parse_variable_value('str')
'str'
>>> parse_variable_value('123')
123
>>> parse_variable_value('1.23')
1.23
"""
if value == "True":
return True
elif value == "False":
return False
elif value == "None":
return None
elif value.isdigit():
return int(value)
else:
try:
value = float(value)
except Exception:
# Not a float
pass
return value
def parse_compile_time_env(s, current_settings=None):
"""
Parses a comma-separated list of pragma options. Whitespace
is not considered.
>>> parse_compile_time_env(' ')
{}
>>> (parse_compile_time_env('HAVE_OPENMP=True') ==
... {'HAVE_OPENMP': True})
True
>>> parse_compile_time_env(' asdf')
Traceback (most recent call last):
...
ValueError: Expected "=" in option "asdf"
>>> parse_compile_time_env('NUM_THREADS=4') == {'NUM_THREADS': 4}
True
>>> parse_compile_time_env('unknown=anything') == {'unknown': 'anything'}
True
"""
if current_settings is None:
result = {}
else:
result = current_settings
for item in s.split(','):
item = item.strip()
if not item:
continue
if '=' not in item:
raise ValueError('Expected "=" in option "%s"' % item)
name, value = [s.strip() for s in item.split('=', 1)]
result[name] = parse_variable_value(value)
return result