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

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2024-09-15 12:12:16 +00:00
from __future__ import absolute_import
from .TreeFragment import parse_from_strings, StringParseContext
from . import Symtab
from . import Naming
from . import Code
class NonManglingModuleScope(Symtab.ModuleScope):
def __init__(self, prefix, *args, **kw):
self.prefix = prefix
self.cython_scope = None
self.cpp = kw.pop('cpp', False)
Symtab.ModuleScope.__init__(self, *args, **kw)
def add_imported_entry(self, name, entry, pos):
entry.used = True
return super(NonManglingModuleScope, self).add_imported_entry(name, entry, pos)
def mangle(self, prefix, name=None):
if name:
if prefix in (Naming.typeobj_prefix, Naming.func_prefix, Naming.var_prefix, Naming.pyfunc_prefix):
# Functions, classes etc. gets a manually defined prefix easily
# manually callable instead (the one passed to CythonUtilityCode)
prefix = self.prefix
return "%s%s" % (prefix, name)
else:
return Symtab.ModuleScope.mangle(self, prefix)
class CythonUtilityCodeContext(StringParseContext):
scope = None
def find_module(self, module_name, relative_to=None, pos=None, need_pxd=True, absolute_fallback=True):
if relative_to:
raise AssertionError("Relative imports not supported in utility code.")
if module_name != self.module_name:
if module_name not in self.modules:
raise AssertionError("Only the cython cimport is supported.")
else:
return self.modules[module_name]
if self.scope is None:
self.scope = NonManglingModuleScope(
self.prefix, module_name, parent_module=None, context=self, cpp=self.cpp)
return self.scope
class CythonUtilityCode(Code.UtilityCodeBase):
"""
Utility code written in the Cython language itself.
The @cname decorator can set the cname for a function, method of cdef class.
Functions decorated with @cname('c_func_name') get the given cname.
For cdef classes the rules are as follows:
obj struct -> <cname>_obj
obj type ptr -> <cname>_type
methods -> <class_cname>_<method_cname>
For methods the cname decorator is optional, but without the decorator the
methods will not be prototyped. See Cython.Compiler.CythonScope and
tests/run/cythonscope.pyx for examples.
"""
is_cython_utility = True
def __init__(self, impl, name="__pyxutil", prefix="", requires=None,
file=None, from_scope=None, context=None, compiler_directives=None,
outer_module_scope=None):
# 1) We need to delay the parsing/processing, so that all modules can be
# imported without import loops
# 2) The same utility code object can be used for multiple source files;
# while the generated node trees can be altered in the compilation of a
# single file.
# Hence, delay any processing until later.
context_types = {}
if context is not None:
from .PyrexTypes import BaseType
for key, value in context.items():
if isinstance(value, BaseType):
context[key] = key
context_types[key] = value
impl = Code.sub_tempita(impl, context, file, name)
self.impl = impl
self.name = name
self.file = file
self.prefix = prefix
self.requires = requires or []
self.from_scope = from_scope
self.outer_module_scope = outer_module_scope
self.compiler_directives = compiler_directives
self.context_types = context_types
def __eq__(self, other):
if isinstance(other, CythonUtilityCode):
return self._equality_params() == other._equality_params()
else:
return False
def _equality_params(self):
outer_scope = self.outer_module_scope
while isinstance(outer_scope, NonManglingModuleScope):
outer_scope = outer_scope.outer_scope
return self.impl, outer_scope, self.compiler_directives
def __hash__(self):
return hash(self.impl)
def get_tree(self, entries_only=False, cython_scope=None):
from .AnalysedTreeTransforms import AutoTestDictTransform
# The AutoTestDictTransform creates the statement "__test__ = {}",
# which when copied into the main ModuleNode overwrites
# any __test__ in user code; not desired
excludes = [AutoTestDictTransform]
from . import Pipeline, ParseTreeTransforms
context = CythonUtilityCodeContext(
self.name, compiler_directives=self.compiler_directives,
cpp=cython_scope.is_cpp() if cython_scope else False)
context.prefix = self.prefix
context.cython_scope = cython_scope
#context = StringParseContext(self.name)
tree = parse_from_strings(
self.name, self.impl, context=context, allow_struct_enum_decorator=True)
pipeline = Pipeline.create_pipeline(context, 'pyx', exclude_classes=excludes)
if entries_only:
p = []
for t in pipeline:
p.append(t)
if isinstance(p, ParseTreeTransforms.AnalyseDeclarationsTransform):
break
pipeline = p
transform = ParseTreeTransforms.CnameDirectivesTransform(context)
# InterpretCompilerDirectives already does a cdef declarator check
#before = ParseTreeTransforms.DecoratorTransform
before = ParseTreeTransforms.InterpretCompilerDirectives
pipeline = Pipeline.insert_into_pipeline(pipeline, transform,
before=before)
def merge_scope(scope):
def merge_scope_transform(module_node):
module_node.scope.merge_in(scope)
return module_node
return merge_scope_transform
if self.from_scope:
pipeline = Pipeline.insert_into_pipeline(
pipeline, merge_scope(self.from_scope),
before=ParseTreeTransforms.AnalyseDeclarationsTransform)
for dep in self.requires:
if isinstance(dep, CythonUtilityCode) and hasattr(dep, 'tree') and not cython_scope:
pipeline = Pipeline.insert_into_pipeline(
pipeline, merge_scope(dep.tree.scope),
before=ParseTreeTransforms.AnalyseDeclarationsTransform)
if self.outer_module_scope:
# inject outer module between utility code module and builtin module
def scope_transform(module_node):
module_node.scope.outer_scope = self.outer_module_scope
return module_node
pipeline = Pipeline.insert_into_pipeline(
pipeline, scope_transform,
before=ParseTreeTransforms.AnalyseDeclarationsTransform)
if self.context_types:
# inject types into module scope
def scope_transform(module_node):
for name, type in self.context_types.items():
entry = module_node.scope.declare_type(name, type, None, visibility='extern')
entry.in_cinclude = True
return module_node
pipeline = Pipeline.insert_into_pipeline(
pipeline, scope_transform,
before=ParseTreeTransforms.AnalyseDeclarationsTransform)
(err, tree) = Pipeline.run_pipeline(pipeline, tree, printtree=False)
assert not err, err
self.tree = tree
return tree
def put_code(self, output):
pass
@classmethod
def load_as_string(cls, util_code_name, from_file=None, **kwargs):
"""
Load a utility code as a string. Returns (proto, implementation)
"""
util = cls.load(util_code_name, from_file, **kwargs)
return util.proto, util.impl # keep line numbers => no lstrip()
def declare_in_scope(self, dest_scope, used=False, cython_scope=None,
whitelist=None):
"""
Declare all entries from the utility code in dest_scope. Code will only
be included for used entries. If module_name is given, declare the
type entries with that name.
"""
tree = self.get_tree(entries_only=True, cython_scope=cython_scope)
entries = tree.scope.entries
entries.pop('__name__')
entries.pop('__file__')
entries.pop('__builtins__')
entries.pop('__doc__')
for entry in entries.values():
entry.utility_code_definition = self
entry.used = used
original_scope = tree.scope
dest_scope.merge_in(original_scope, merge_unused=True, whitelist=whitelist)
tree.scope = dest_scope
for dep in self.requires:
if dep.is_cython_utility:
dep.declare_in_scope(dest_scope, cython_scope=cython_scope)
return original_scope
def declare_declarations_in_scope(declaration_string, env, private_type=True,
*args, **kwargs):
"""
Declare some declarations given as Cython code in declaration_string
in scope env.
"""
CythonUtilityCode(declaration_string, *args, **kwargs).declare_in_scope(env)