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441 lines
18 KiB
441 lines
18 KiB
# SPDX-License-Identifier: Apache-2.0 |
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# Copyright 2016 The Meson development team |
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# This class contains the basic functionality needed to run any interpreter |
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# or an interpreter-based tool. |
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from __future__ import annotations |
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import os |
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import sys |
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import typing as T |
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from .. import mparser, mesonlib |
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from .. import environment |
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from ..interpreterbase import ( |
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MesonInterpreterObject, |
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InterpreterBase, |
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InvalidArguments, |
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BreakRequest, |
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ContinueRequest, |
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Disabler, |
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default_resolve_key, |
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) |
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from ..interpreter import ( |
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StringHolder, |
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BooleanHolder, |
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IntegerHolder, |
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ArrayHolder, |
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DictHolder, |
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) |
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from ..mparser import ( |
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ArgumentNode, |
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ArithmeticNode, |
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ArrayNode, |
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AssignmentNode, |
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BaseNode, |
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ElementaryNode, |
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EmptyNode, |
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IdNode, |
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MethodNode, |
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NotNode, |
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PlusAssignmentNode, |
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TernaryNode, |
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TestCaseClauseNode, |
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) |
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if T.TYPE_CHECKING: |
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from .visitor import AstVisitor |
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from ..interpreter import Interpreter |
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from ..interpreterbase import SubProject, TYPE_nkwargs, TYPE_var |
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from ..mparser import ( |
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AndNode, |
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ComparisonNode, |
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ForeachClauseNode, |
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IfClauseNode, |
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IndexNode, |
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OrNode, |
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UMinusNode, |
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) |
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class DontCareObject(MesonInterpreterObject): |
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pass |
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class MockExecutable(MesonInterpreterObject): |
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pass |
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class MockStaticLibrary(MesonInterpreterObject): |
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pass |
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class MockSharedLibrary(MesonInterpreterObject): |
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pass |
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class MockCustomTarget(MesonInterpreterObject): |
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pass |
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class MockRunTarget(MesonInterpreterObject): |
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pass |
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ADD_SOURCE = 0 |
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REMOVE_SOURCE = 1 |
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_T = T.TypeVar('_T') |
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_V = T.TypeVar('_V') |
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class AstInterpreter(InterpreterBase): |
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def __init__(self, source_root: str, subdir: str, subproject: SubProject, visitors: T.Optional[T.List[AstVisitor]] = None): |
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super().__init__(source_root, subdir, subproject) |
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self.visitors = visitors if visitors is not None else [] |
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self.processed_buildfiles: T.Set[str] = set() |
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self.assignments: T.Dict[str, BaseNode] = {} |
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self.assign_vals: T.Dict[str, T.Any] = {} |
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self.reverse_assignment: T.Dict[str, BaseNode] = {} |
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self.funcs.update({'project': self.func_do_nothing, |
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'test': self.func_do_nothing, |
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'benchmark': self.func_do_nothing, |
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'install_headers': self.func_do_nothing, |
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'install_man': self.func_do_nothing, |
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'install_data': self.func_do_nothing, |
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'install_subdir': self.func_do_nothing, |
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'install_symlink': self.func_do_nothing, |
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'install_emptydir': self.func_do_nothing, |
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'configuration_data': self.func_do_nothing, |
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'configure_file': self.func_do_nothing, |
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'find_program': self.func_do_nothing, |
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'include_directories': self.func_do_nothing, |
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'add_global_arguments': self.func_do_nothing, |
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'add_global_link_arguments': self.func_do_nothing, |
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'add_project_arguments': self.func_do_nothing, |
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'add_project_dependencies': self.func_do_nothing, |
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'add_project_link_arguments': self.func_do_nothing, |
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'message': self.func_do_nothing, |
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'generator': self.func_do_nothing, |
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'error': self.func_do_nothing, |
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'run_command': self.func_do_nothing, |
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'assert': self.func_do_nothing, |
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'subproject': self.func_do_nothing, |
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'dependency': self.func_do_nothing, |
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'get_option': self.func_do_nothing, |
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'join_paths': self.func_do_nothing, |
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'environment': self.func_do_nothing, |
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'import': self.func_do_nothing, |
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'vcs_tag': self.func_do_nothing, |
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'add_languages': self.func_do_nothing, |
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'declare_dependency': self.func_do_nothing, |
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'files': self.func_do_nothing, |
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'executable': self.func_do_nothing, |
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'static_library': self.func_do_nothing, |
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'shared_library': self.func_do_nothing, |
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'library': self.func_do_nothing, |
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'build_target': self.func_do_nothing, |
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'custom_target': self.func_do_nothing, |
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'run_target': self.func_do_nothing, |
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'subdir': self.func_subdir, |
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'set_variable': self.func_do_nothing, |
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'get_variable': self.func_do_nothing, |
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'unset_variable': self.func_do_nothing, |
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'is_disabler': self.func_do_nothing, |
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'is_variable': self.func_do_nothing, |
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'disabler': self.func_do_nothing, |
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'jar': self.func_do_nothing, |
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'warning': self.func_do_nothing, |
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'shared_module': self.func_do_nothing, |
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'option': self.func_do_nothing, |
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'both_libraries': self.func_do_nothing, |
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'add_test_setup': self.func_do_nothing, |
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'subdir_done': self.func_do_nothing, |
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'alias_target': self.func_do_nothing, |
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'summary': self.func_do_nothing, |
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'range': self.func_do_nothing, |
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'structured_sources': self.func_do_nothing, |
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'debug': self.func_do_nothing, |
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}) |
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def _unholder_args(self, args: _T, kwargs: _V) -> T.Tuple[_T, _V]: |
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return args, kwargs |
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def _holderify(self, res: _T) -> _T: |
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return res |
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def func_do_nothing(self, node: BaseNode, args: T.List[TYPE_var], kwargs: T.Dict[str, TYPE_var]) -> bool: |
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return True |
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def load_root_meson_file(self) -> None: |
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super().load_root_meson_file() |
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for i in self.visitors: |
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self.ast.accept(i) |
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def func_subdir(self, node: BaseNode, args: T.List[TYPE_var], kwargs: T.Dict[str, TYPE_var]) -> None: |
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args = self.flatten_args(args) |
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if len(args) != 1 or not isinstance(args[0], str): |
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sys.stderr.write(f'Unable to evaluate subdir({args}) in AstInterpreter --> Skipping\n') |
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return |
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prev_subdir = self.subdir |
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subdir = os.path.join(prev_subdir, args[0]) |
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absdir = os.path.join(self.source_root, subdir) |
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buildfilename = os.path.join(subdir, environment.build_filename) |
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absname = os.path.join(self.source_root, buildfilename) |
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symlinkless_dir = os.path.realpath(absdir) |
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build_file = os.path.join(symlinkless_dir, 'meson.build') |
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if build_file in self.processed_buildfiles: |
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sys.stderr.write('Trying to enter {} which has already been visited --> Skipping\n'.format(args[0])) |
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return |
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self.processed_buildfiles.add(build_file) |
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if not os.path.isfile(absname): |
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sys.stderr.write(f'Unable to find build file {buildfilename} --> Skipping\n') |
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return |
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with open(absname, encoding='utf-8') as f: |
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code = f.read() |
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assert isinstance(code, str) |
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try: |
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codeblock = mparser.Parser(code, absname).parse() |
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except mesonlib.MesonException as me: |
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me.file = absname |
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raise me |
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self.subdir = subdir |
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for i in self.visitors: |
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codeblock.accept(i) |
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self.evaluate_codeblock(codeblock) |
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self.subdir = prev_subdir |
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def method_call(self, node: BaseNode) -> bool: |
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return True |
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def evaluate_fstring(self, node: mparser.StringNode) -> str: |
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assert isinstance(node, mparser.StringNode) |
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return node.value |
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def evaluate_arraystatement(self, cur: mparser.ArrayNode) -> TYPE_var: |
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return self.reduce_arguments(cur.args)[0] |
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def evaluate_arithmeticstatement(self, cur: ArithmeticNode) -> int: |
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self.evaluate_statement(cur.left) |
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self.evaluate_statement(cur.right) |
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return 0 |
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def evaluate_uminusstatement(self, cur: UMinusNode) -> int: |
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self.evaluate_statement(cur.value) |
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return 0 |
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def evaluate_ternary(self, node: TernaryNode) -> None: |
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assert isinstance(node, TernaryNode) |
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self.evaluate_statement(node.condition) |
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self.evaluate_statement(node.trueblock) |
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self.evaluate_statement(node.falseblock) |
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def evaluate_dictstatement(self, node: mparser.DictNode) -> TYPE_nkwargs: |
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def resolve_key(node: mparser.BaseNode) -> str: |
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if isinstance(node, mparser.StringNode): |
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return node.value |
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return '__AST_UNKNOWN__' |
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arguments, kwargs = self.reduce_arguments(node.args, key_resolver=resolve_key) |
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assert not arguments |
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self.argument_depth += 1 |
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for key, value in kwargs.items(): |
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if isinstance(key, BaseNode): |
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self.evaluate_statement(key) |
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self.argument_depth -= 1 |
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return {} |
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def evaluate_plusassign(self, node: PlusAssignmentNode) -> None: |
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assert isinstance(node, PlusAssignmentNode) |
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# Cheat by doing a reassignment |
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self.assignments[node.var_name.value] = node.value # Save a reference to the value node |
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if node.value.ast_id: |
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self.reverse_assignment[node.value.ast_id] = node |
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self.assign_vals[node.var_name.value] = self.evaluate_statement(node.value) |
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def evaluate_indexing(self, node: IndexNode) -> int: |
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return 0 |
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def unknown_function_called(self, func_name: str) -> None: |
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pass |
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def reduce_arguments( |
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self, |
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args: mparser.ArgumentNode, |
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key_resolver: T.Callable[[mparser.BaseNode], str] = default_resolve_key, |
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duplicate_key_error: T.Optional[str] = None, |
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) -> T.Tuple[T.List[TYPE_var], TYPE_nkwargs]: |
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if isinstance(args, ArgumentNode): |
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kwargs: T.Dict[str, TYPE_var] = {} |
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for key, val in args.kwargs.items(): |
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kwargs[key_resolver(key)] = val |
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if args.incorrect_order(): |
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raise InvalidArguments('All keyword arguments must be after positional arguments.') |
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return self.flatten_args(args.arguments), kwargs |
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else: |
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return self.flatten_args(args), {} |
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def evaluate_comparison(self, node: ComparisonNode) -> bool: |
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self.evaluate_statement(node.left) |
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self.evaluate_statement(node.right) |
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return False |
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def evaluate_andstatement(self, cur: AndNode) -> bool: |
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self.evaluate_statement(cur.left) |
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self.evaluate_statement(cur.right) |
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return False |
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def evaluate_orstatement(self, cur: OrNode) -> bool: |
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self.evaluate_statement(cur.left) |
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self.evaluate_statement(cur.right) |
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return False |
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def evaluate_notstatement(self, cur: NotNode) -> bool: |
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self.evaluate_statement(cur.value) |
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return False |
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def evaluate_foreach(self, node: ForeachClauseNode) -> None: |
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try: |
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self.evaluate_codeblock(node.block) |
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except ContinueRequest: |
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pass |
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except BreakRequest: |
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pass |
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def evaluate_if(self, node: IfClauseNode) -> None: |
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for i in node.ifs: |
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self.evaluate_codeblock(i.block) |
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if not isinstance(node.elseblock, EmptyNode): |
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self.evaluate_codeblock(node.elseblock.block) |
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def get_variable(self, varname: str) -> int: |
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return 0 |
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def assignment(self, node: AssignmentNode) -> None: |
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assert isinstance(node, AssignmentNode) |
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self.assignments[node.var_name.value] = node.value # Save a reference to the value node |
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if node.value.ast_id: |
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self.reverse_assignment[node.value.ast_id] = node |
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self.assign_vals[node.var_name.value] = self.evaluate_statement(node.value) # Evaluate the value just in case |
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def resolve_node(self, node: BaseNode, include_unknown_args: bool = False, id_loop_detect: T.Optional[T.List[str]] = None) -> T.Optional[T.Any]: |
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def quick_resolve(n: BaseNode, loop_detect: T.Optional[T.List[str]] = None) -> T.Any: |
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if loop_detect is None: |
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loop_detect = [] |
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if isinstance(n, IdNode): |
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assert isinstance(n.value, str) |
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if n.value in loop_detect or n.value not in self.assignments: |
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return [] |
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return quick_resolve(self.assignments[n.value], loop_detect = loop_detect + [n.value]) |
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elif isinstance(n, ElementaryNode): |
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return n.value |
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else: |
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return n |
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if id_loop_detect is None: |
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id_loop_detect = [] |
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result = None |
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if not isinstance(node, BaseNode): |
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return None |
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assert node.ast_id |
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if node.ast_id in id_loop_detect: |
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return None # Loop detected |
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id_loop_detect += [node.ast_id] |
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# Try to evaluate the value of the node |
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if isinstance(node, IdNode): |
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result = quick_resolve(node) |
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elif isinstance(node, ElementaryNode): |
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result = node.value |
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elif isinstance(node, NotNode): |
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result = self.resolve_node(node.value, include_unknown_args, id_loop_detect) |
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if isinstance(result, bool): |
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result = not result |
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elif isinstance(node, ArrayNode): |
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result = node.args.arguments.copy() |
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elif isinstance(node, ArgumentNode): |
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result = node.arguments.copy() |
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elif isinstance(node, ArithmeticNode): |
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if node.operation != 'add': |
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return None # Only handle string and array concats |
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l = self.resolve_node(node.left, include_unknown_args, id_loop_detect) |
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r = self.resolve_node(node.right, include_unknown_args, id_loop_detect) |
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if isinstance(l, str) and isinstance(r, str): |
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result = l + r # String concatenation detected |
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else: |
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result = self.flatten_args(l, include_unknown_args, id_loop_detect) + self.flatten_args(r, include_unknown_args, id_loop_detect) |
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elif isinstance(node, MethodNode): |
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src = quick_resolve(node.source_object) |
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margs = self.flatten_args(node.args.arguments, include_unknown_args, id_loop_detect) |
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mkwargs: T.Dict[str, TYPE_var] = {} |
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method_name = node.name.value |
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try: |
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if isinstance(src, str): |
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result = StringHolder(src, T.cast('Interpreter', self)).method_call(method_name, margs, mkwargs) |
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elif isinstance(src, bool): |
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result = BooleanHolder(src, T.cast('Interpreter', self)).method_call(method_name, margs, mkwargs) |
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elif isinstance(src, int): |
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result = IntegerHolder(src, T.cast('Interpreter', self)).method_call(method_name, margs, mkwargs) |
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elif isinstance(src, list): |
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result = ArrayHolder(src, T.cast('Interpreter', self)).method_call(method_name, margs, mkwargs) |
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elif isinstance(src, dict): |
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result = DictHolder(src, T.cast('Interpreter', self)).method_call(method_name, margs, mkwargs) |
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except mesonlib.MesonException: |
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return None |
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# Ensure that the result is fully resolved (no more nodes) |
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if isinstance(result, BaseNode): |
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result = self.resolve_node(result, include_unknown_args, id_loop_detect) |
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elif isinstance(result, list): |
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new_res: T.List[TYPE_var] = [] |
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for i in result: |
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if isinstance(i, BaseNode): |
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resolved = self.resolve_node(i, include_unknown_args, id_loop_detect) |
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if resolved is not None: |
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new_res += self.flatten_args(resolved, include_unknown_args, id_loop_detect) |
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else: |
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new_res += [i] |
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result = new_res |
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return result |
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def flatten_args(self, args_raw: T.Union[TYPE_var, T.Sequence[TYPE_var]], include_unknown_args: bool = False, id_loop_detect: T.Optional[T.List[str]] = None) -> T.List[TYPE_var]: |
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# Make sure we are always dealing with lists |
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if isinstance(args_raw, list): |
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args = args_raw |
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else: |
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args = [args_raw] |
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flattened_args: T.List[TYPE_var] = [] |
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# Resolve the contents of args |
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for i in args: |
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if isinstance(i, BaseNode): |
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resolved = self.resolve_node(i, include_unknown_args, id_loop_detect) |
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if resolved is not None: |
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if not isinstance(resolved, list): |
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resolved = [resolved] |
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flattened_args += resolved |
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elif isinstance(i, (str, bool, int, float)) or include_unknown_args: |
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flattened_args += [i] |
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return flattened_args |
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def flatten_kwargs(self, kwargs: T.Dict[str, TYPE_var], include_unknown_args: bool = False) -> T.Dict[str, TYPE_var]: |
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flattened_kwargs = {} |
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for key, val in kwargs.items(): |
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if isinstance(val, BaseNode): |
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resolved = self.resolve_node(val, include_unknown_args) |
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if resolved is not None: |
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flattened_kwargs[key] = resolved |
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elif isinstance(val, (str, bool, int, float)) or include_unknown_args: |
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flattened_kwargs[key] = val |
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return flattened_kwargs |
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def evaluate_testcase(self, node: TestCaseClauseNode) -> Disabler | None: |
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return Disabler(subproject=self.subproject)
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