"""Block/import reachability analysis.""" from mypy.nodes import ( MypyFile, AssertStmt, IfStmt, Block, AssignmentStmt, ExpressionStmt, ReturnStmt, ForStmt, MatchStmt, Import, ImportAll, ImportFrom, ClassDef, FuncDef ) from mypy.traverser import TraverserVisitor from mypy.options import Options from mypy.reachability import ( infer_reachability_of_if_statement, assert_will_always_fail, infer_reachability_of_match_statement ) class SemanticAnalyzerPreAnalysis(TraverserVisitor): """Analyze reachability of blocks and imports and other local things. This runs before semantic analysis, so names have not been bound. Imports are also not resolved yet, so we can only access the current module. This determines static reachability of blocks and imports due to version and platform checks, among others. The main entry point is 'visit_file'. Reachability of imports needs to be determined very early in the build since this affects which modules will ultimately be processed. Consider this example: import sys def do_stuff(): # type: () -> None: if sys.python_version < (3,): import xyz # Only available in Python 2 xyz.whatever() ... The block containing 'import xyz' is unreachable in Python 3 mode. The import shouldn't be processed in Python 3 mode, even if the module happens to exist. """ def visit_file(self, file: MypyFile, fnam: str, mod_id: str, options: Options) -> None: self.pyversion = options.python_version self.platform = options.platform self.cur_mod_id = mod_id self.cur_mod_node = file self.options = options self.is_global_scope = True for i, defn in enumerate(file.defs): defn.accept(self) if isinstance(defn, AssertStmt) and assert_will_always_fail(defn, options): # We've encountered an assert that's always false, # e.g. assert sys.platform == 'lol'. Truncate the # list of statements. This mutates file.defs too. del file.defs[i + 1:] break def visit_func_def(self, node: FuncDef) -> None: old_global_scope = self.is_global_scope self.is_global_scope = False super().visit_func_def(node) self.is_global_scope = old_global_scope file_node = self.cur_mod_node if (self.is_global_scope and file_node.is_stub and node.name == '__getattr__' and file_node.is_package_init_file()): # __init__.pyi with __getattr__ means that any submodules are assumed # to exist, even if there is no stub. Note that we can't verify that the # return type is compatible, since we haven't bound types yet. file_node.is_partial_stub_package = True def visit_class_def(self, node: ClassDef) -> None: old_global_scope = self.is_global_scope self.is_global_scope = False super().visit_class_def(node) self.is_global_scope = old_global_scope def visit_import_from(self, node: ImportFrom) -> None: node.is_top_level = self.is_global_scope super().visit_import_from(node) def visit_import_all(self, node: ImportAll) -> None: node.is_top_level = self.is_global_scope super().visit_import_all(node) def visit_import(self, node: Import) -> None: node.is_top_level = self.is_global_scope super().visit_import(node) def visit_if_stmt(self, s: IfStmt) -> None: infer_reachability_of_if_statement(s, self.options) for expr in s.expr: expr.accept(self) for node in s.body: node.accept(self) if s.else_body: s.else_body.accept(self) def visit_block(self, b: Block) -> None: if b.is_unreachable: return super().visit_block(b) def visit_match_stmt(self, s: MatchStmt) -> None: infer_reachability_of_match_statement(s, self.options) for guard in s.guards: if guard is not None: guard.accept(self) for body in s.bodies: body.accept(self) # The remaining methods are an optimization: don't visit nested expressions # of common statements, since they can have no effect. def visit_assignment_stmt(self, s: AssignmentStmt) -> None: pass def visit_expression_stmt(self, s: ExpressionStmt) -> None: pass def visit_return_stmt(self, s: ReturnStmt) -> None: pass def visit_for_stmt(self, s: ForStmt) -> None: s.body.accept(self) if s.else_body is not None: s.else_body.accept(self)