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# Copyright 2021 The Meson development team
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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# http://www.apache.org/licenses/LICENSE-2.0
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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from abc import ABCMeta, abstractmethod
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from pathlib import Path
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import re
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import typing as T
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from .model import (
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NamedObject,
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FetureCheck,
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ArgBase,
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PosArg,
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DataTypeInfo,
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Type,
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Function,
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Method,
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Object,
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ObjectType,
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ReferenceManual,
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)
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from mesonbuild import mlog
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class _Resolver:
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def __init__(self) -> None:
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self.type_map: T.Dict[str, Object] = {}
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self.func_map: T.Dict[str, T.Union[Function, Method]] = {}
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self.processed_funcs: T.Set[str] = set()
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def _validate_named_object(self, obj: NamedObject) -> None:
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name_regex = re.compile(r'[a-zA-Z0-9_]+')
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obj.name = obj.name.strip()
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obj.description = obj.description.strip()
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assert obj.name and obj.description, 'Both name and description must be set'
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assert obj.name.islower(), f'Object names must be lower case ({obj.name})'
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assert name_regex.match(obj.name) or obj.name == '[index]', f'Invalid name {obj.name}'
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def _validate_feature_check(self, obj: FetureCheck) -> None:
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meson_version_reg = re.compile(r'[0-9]+\.[0-9]+\.[0-9]+')
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obj.since = obj.since.strip()
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obj.deprecated = obj.deprecated.strip()
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if obj.since:
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assert meson_version_reg.match(obj.since)
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if obj.deprecated:
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assert meson_version_reg.match(obj.deprecated)
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def _resolve_type(self, raw: str) -> Type:
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typ = Type(raw)
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# We can't use `types = raw.split('|')`, because of `list[str | env]`
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types: T.List[str] = ['']
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stack = 0
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for c in raw:
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if stack == 0 and c == '|':
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types += ['']
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continue
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if c == '[':
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stack += 1
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if c == ']':
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stack -= 1
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types[-1] += c
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types = [x.strip() for x in types]
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for t in types:
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t = t.strip()
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idx = t.find('[')
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base_type = t
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held_type = None
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if idx > 0:
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base_type = t[:idx]
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held_type = self._resolve_type(t[idx+1:-1])
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assert base_type in self.type_map, f'No known object {t}'
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obj = self.type_map[base_type]
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typ.resolved += [DataTypeInfo(obj, held_type)]
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return typ
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def _validate_func(self, func: T.Union[Function, Method]) -> None:
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# Always run basic checks, since they also slightly post-process (strip) some strings
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self._validate_named_object(func)
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self._validate_feature_check(func)
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func_id = f'{func.obj.name}.{func.name}' if isinstance(func, Method) else func.name
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if func_id in self.processed_funcs:
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return
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func.returns = self._resolve_type(func.returns.raw)
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all_args: T.List[ArgBase] = []
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all_args += func.posargs
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all_args += func.optargs
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all_args += func.kwargs.values()
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all_args += [func.varargs] if func.varargs else []
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for arg in all_args:
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arg.type = self._resolve_type(arg.type.raw)
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# Handle returned_by
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for obj in func.returns.resolved:
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obj.data_type.returned_by += [func]
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# Handle kwargs inehritance
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for base_name in func.kwargs_inherit:
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base_name = base_name.strip()
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assert base_name in self.func_map, f'Unknown base function `{base_name}` for {func.name}'
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base = self.func_map[base_name]
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if base_name not in self.processed_funcs:
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self._validate_func(base)
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curr_keys = set(func.kwargs.keys())
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base_keys = set(base.kwargs.keys())
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# Calculate the missing kwargs from the current set
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missing = {k: v for k, v in base.kwargs.items() if k in base_keys - curr_keys}
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func.kwargs.update(missing)
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# Handloe other args inheritance
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_T = T.TypeVar('_T', bound=T.Union[ArgBase, T.List[PosArg]])
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def resolve_inherit(name: str, curr: _T, resolver: T.Callable[[Function], _T]) -> _T:
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if name and not curr:
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name = name.strip()
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assert name in self.func_map, f'Unknown base function `{name}` for {func.name}'
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if name not in self.processed_funcs:
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self._validate_func(self.func_map[name])
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ref_args = resolver(self.func_map[name])
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assert ref_args is not None, f'Inherited function `{name}` does not have inherited args set'
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return ref_args
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return curr
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func.posargs = resolve_inherit(func.posargs_inherit, func.posargs, lambda x: x.posargs)
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func.optargs = resolve_inherit(func.optargs_inherit, func.optargs, lambda x: x.optargs)
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func.varargs = resolve_inherit(func.varargs_inherit, func.varargs, lambda x: x.varargs)
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self.processed_funcs.add(func_id)
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def validate_and_resolve(self, manual: ReferenceManual) -> ReferenceManual:
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mlog.log('Validating loaded manual...')
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# build type map and func map for methods
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for obj in manual.objects:
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assert obj.name not in self.type_map, f'Duplicate object name {obj.name}'
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self.type_map[obj.name] = obj
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for m in obj.methods:
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mid = f'{obj.name}.{m.name}'
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assert mid not in self.type_map, f'Duplicate method {mid}'
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self.func_map[mid] = m
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# Build func map for functions
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for func in manual.functions:
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assert func.name not in [*self.func_map.keys()], f'Duplicate function {func.name}'
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self.func_map[func.name] = func
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mlog.log('Validating functions...')
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for func in manual.functions:
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mlog.log(' -- validating', mlog.bold(func.name))
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self._validate_func(func)
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mlog.log('Validating objects...')
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for obj in manual.objects:
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mlog.log(' -- validating', mlog.bold(obj.name))
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self._validate_named_object(obj)
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self._validate_feature_check(obj)
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# Resolve and validate inheritance
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if obj.extends:
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assert obj.extends in self.type_map, f'Unknown extends object {obj.extends} in {obj.name}'
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obj.extends_obj = self.type_map[obj.extends]
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obj.extends_obj.extended_by += [obj]
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# Only returned objects can be associated with module
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if obj.obj_type is not ObjectType.RETURNED:
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assert obj.defined_by_module is None
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for m in obj.methods:
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assert m.obj is obj
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self._validate_func(m)
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# Resolve inherited methods
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for obj in manual.objects:
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inherited_methods = obj.inherited_methods
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curr = obj.extends_obj
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while curr is not None:
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inherited_methods += curr.methods
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curr = curr.extends_obj
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return manual
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class LoaderBase(metaclass=ABCMeta):
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def __init__(self) -> None:
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self._input_files: T.List[Path] = []
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@property
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def input_files(self) -> T.List[Path]:
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return list(self._input_files)
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def read_file(self, f: Path) -> str:
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assert f.exists()
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assert f.is_file()
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self._input_files += [f.resolve()]
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return f.read_text(encoding='utf-8')
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@abstractmethod
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def load_impl(self) -> ReferenceManual:
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pass
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def load(self) -> ReferenceManual:
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self._input_files = [] # Reset input files
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manual = self.load_impl()
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resolver = _Resolver()
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with mlog.nested():
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return resolver.validate_and_resolve(manual)
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