use std::ops::{Deref, DerefMut}; use bitflags::bitflags; use ruff_text_size::TextRange; use rustpython_ast::Ranged; use ruff_index::{newtype_index, IndexSlice, IndexVec}; use ruff_source_file::Locator; use crate::context::ExecutionContext; use crate::model::SemanticModel; use crate::node::NodeId; use crate::reference::ResolvedReferenceId; use crate::ScopeId; #[derive(Debug, Clone)] pub struct Binding<'a> { pub kind: BindingKind<'a>, pub range: TextRange, /// The [`ScopeId`] of the scope in which the [`Binding`] was defined. pub scope: ScopeId, /// The context in which the [`Binding`] was created. pub context: ExecutionContext, /// The statement in which the [`Binding`] was defined. pub source: Option, /// The references to the [`Binding`]. pub references: Vec, /// The exceptions that were handled when the [`Binding`] was defined. pub exceptions: Exceptions, /// Flags for the [`Binding`]. pub flags: BindingFlags, } impl<'a> Binding<'a> { /// Return `true` if this [`Binding`] is used. pub fn is_used(&self) -> bool { !self.references.is_empty() } /// Returns an iterator over all references for the current [`Binding`]. pub fn references(&self) -> impl Iterator + '_ { self.references.iter().copied() } /// Return `true` if this [`Binding`] represents an explicit re-export /// (e.g., `FastAPI` in `from fastapi import FastAPI as FastAPI`). pub const fn is_explicit_export(&self) -> bool { self.flags.intersects(BindingFlags::EXPLICIT_EXPORT) } /// Return `true` if this [`Binding`] represents an external symbol /// (e.g., `FastAPI` in `from fastapi import FastAPI`). pub const fn is_external(&self) -> bool { self.flags.intersects(BindingFlags::EXTERNAL) } /// Return `true` if this [`Binding`] represents an aliased symbol /// (e.g., `app` in `from fastapi import FastAPI as app`). pub const fn is_alias(&self) -> bool { self.flags.intersects(BindingFlags::ALIAS) } /// Return `true` if this [`Binding`] represents a `nonlocal`. A [`Binding`] is a `nonlocal` /// if it's declared by a `nonlocal` statement, or shadows a [`Binding`] declared by a /// `nonlocal` statement. pub const fn is_nonlocal(&self) -> bool { self.flags.intersects(BindingFlags::NONLOCAL) } /// Return `true` if this [`Binding`] represents a `global`. A [`Binding`] is a `global` if it's /// declared by a `global` statement, or shadows a [`Binding`] declared by a `global` statement. pub const fn is_global(&self) -> bool { self.flags.intersects(BindingFlags::GLOBAL) } /// Return `true` if this [`Binding`] represents an assignment to `__all__` with an invalid /// value (e.g., `__all__ = "Foo"`). pub const fn is_invalid_all_format(&self) -> bool { self.flags.intersects(BindingFlags::INVALID_ALL_FORMAT) } /// Return `true` if this [`Binding`] represents an assignment to `__all__` that includes an /// invalid member (e.g., `__all__ = ["Foo", 1]`). pub const fn is_invalid_all_object(&self) -> bool { self.flags.intersects(BindingFlags::INVALID_ALL_OBJECT) } /// Return `true` if this [`Binding`] represents an unbound variable /// (e.g., `x` in `x = 1; del x`). pub const fn is_unbound(&self) -> bool { matches!( self.kind, BindingKind::Annotation | BindingKind::Deletion | BindingKind::UnboundException(_) ) } /// Return `true` if this [`Binding`] represents an private variable /// (e.g., `_x` in `_x = "private variable"`) pub const fn is_private_variable(&self) -> bool { self.flags.contains(BindingFlags::PRIVATE_DECLARATION) } /// Return `true` if this binding redefines the given binding. pub fn redefines(&self, existing: &'a Binding) -> bool { match &self.kind { BindingKind::Import(Import { qualified_name }) => { if let BindingKind::SubmoduleImport(SubmoduleImport { qualified_name: existing, }) = &existing.kind { return qualified_name == existing; } } BindingKind::FromImport(FromImport { qualified_name }) => { if let BindingKind::SubmoduleImport(SubmoduleImport { qualified_name: existing, }) = &existing.kind { return qualified_name == existing; } } BindingKind::SubmoduleImport(SubmoduleImport { qualified_name }) => { match &existing.kind { BindingKind::Import(Import { qualified_name: existing, }) | BindingKind::SubmoduleImport(SubmoduleImport { qualified_name: existing, }) => { return qualified_name == existing; } BindingKind::FromImport(FromImport { qualified_name: existing, }) => { return qualified_name == existing; } _ => {} } } BindingKind::Deletion | BindingKind::Annotation | BindingKind::FutureImport | BindingKind::Builtin => { return false; } _ => {} } matches!( existing.kind, BindingKind::ClassDefinition(_) | BindingKind::FunctionDefinition(_) | BindingKind::Import(_) | BindingKind::FromImport(_) | BindingKind::SubmoduleImport(_) ) } /// Returns the fully-qualified symbol name, if this symbol was imported from another module. pub fn qualified_name(&self) -> Option<&str> { match &self.kind { BindingKind::Import(Import { qualified_name }) => Some(qualified_name), BindingKind::FromImport(FromImport { qualified_name }) => Some(qualified_name), BindingKind::SubmoduleImport(SubmoduleImport { qualified_name }) => { Some(qualified_name) } _ => None, } } /// Returns the fully-qualified name of the module from which this symbol was imported, if this /// symbol was imported from another module. pub fn module_name(&self) -> Option<&str> { match &self.kind { BindingKind::Import(Import { qualified_name }) | BindingKind::SubmoduleImport(SubmoduleImport { qualified_name }) => { Some(qualified_name.split('.').next().unwrap_or(qualified_name)) } BindingKind::FromImport(FromImport { qualified_name }) => Some( qualified_name .rsplit_once('.') .map_or(qualified_name, |(module, _)| module), ), _ => None, } } /// Returns the name of the binding (e.g., `x` in `x = 1`). pub fn name<'b>(&self, locator: &'b Locator) -> &'b str { locator.slice(self.range) } /// Returns the range of the binding's parent. pub fn parent_range(&self, semantic: &SemanticModel) -> Option { self.source .map(|node_id| semantic.stmts[node_id]) .and_then(|parent| { if parent.is_import_from_stmt() { Some(parent.range()) } else { None } }) } } bitflags! { /// Flags on a [`Binding`]. #[derive(Debug, Default, Copy, Clone, Eq, PartialEq)] pub struct BindingFlags: u8 { /// The binding represents an explicit re-export. /// /// For example, the binding could be `FastAPI` in: /// ```python /// from fastapi import FastAPI as FastAPI /// ``` const EXPLICIT_EXPORT = 1 << 0; /// The binding represents an external symbol, like an import or a builtin. /// /// For example, the binding could be `FastAPI` in: /// ```python /// from fastapi import FastAPI /// ``` const EXTERNAL = 1 << 1; /// The binding is an aliased symbol. /// /// For example, the binding could be `app` in: /// ```python /// from fastapi import FastAPI as app /// ``` const ALIAS = 1 << 2; /// The binding is `nonlocal` to the declaring scope. This could be a binding created by /// a `nonlocal` statement, or a binding that shadows such a binding. /// /// For example, both of the bindings in the following function are `nonlocal`: /// ```python /// def f(): /// nonlocal x /// x = 1 /// ``` const NONLOCAL = 1 << 3; /// The binding is `global`. This could be a binding created by a `global` statement, or a /// binding that shadows such a binding. /// /// For example, both of the bindings in the following function are `global`: /// ```python /// def f(): /// global x /// x = 1 /// ``` const GLOBAL = 1 << 4; /// The binding represents an export via `__all__`, but the assigned value uses an invalid /// expression (i.e., a non-container type). /// /// For example: /// ```python /// __all__ = 1 /// ``` const INVALID_ALL_FORMAT = 1 << 5; /// The binding represents an export via `__all__`, but the assigned value contains an /// invalid member (i.e., a non-string). /// /// For example: /// ```python /// __all__ = [1] /// ``` const INVALID_ALL_OBJECT = 1 << 6; /// The binding represents a private declaration. /// /// For example, the binding could be `_T` in: /// ```python /// _T = "This is a private variable" /// ``` const PRIVATE_DECLARATION = 1 << 7; } } /// ID uniquely identifying a [Binding] in a program. /// /// Using a `u32` to identify [Binding]s should is sufficient because Ruff only supports documents with a /// size smaller than or equal to `u32::max`. A document with the size of `u32::max` must have fewer than `u32::max` /// bindings because bindings must be separated by whitespace (and have an assignment). #[newtype_index] pub struct BindingId; /// The bindings in a program. /// /// Bindings are indexed by [`BindingId`] #[derive(Debug, Clone, Default)] pub struct Bindings<'a>(IndexVec>); impl<'a> Bindings<'a> { /// Pushes a new [`Binding`] and returns its [`BindingId`]. pub fn push(&mut self, binding: Binding<'a>) -> BindingId { self.0.push(binding) } } impl<'a> Deref for Bindings<'a> { type Target = IndexSlice>; fn deref(&self) -> &Self::Target { &self.0 } } impl<'a> DerefMut for Bindings<'a> { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } impl<'a> FromIterator> for Bindings<'a> { fn from_iter>>(iter: T) -> Self { Self(IndexVec::from_iter(iter)) } } #[derive(Debug, Clone)] pub struct Export<'a> { /// The names of the bindings exported via `__all__`. pub names: Box<[&'a str]>, } /// A binding for an `import`, keyed on the name to which the import is bound. /// Ex) `import foo` would be keyed on "foo". /// Ex) `import foo as bar` would be keyed on "bar". #[derive(Debug, Clone)] pub struct Import<'a> { /// The full name of the module being imported. /// Ex) Given `import foo`, `qualified_name` would be "foo". /// Ex) Given `import foo as bar`, `qualified_name` would be "foo". pub qualified_name: &'a str, } /// A binding for a member imported from a module, keyed on the name to which the member is bound. /// Ex) `from foo import bar` would be keyed on "bar". /// Ex) `from foo import bar as baz` would be keyed on "baz". #[derive(Debug, Clone)] pub struct FromImport { /// The full name of the member being imported. /// Ex) Given `from foo import bar`, `qualified_name` would be "foo.bar". /// Ex) Given `from foo import bar as baz`, `qualified_name` would be "foo.bar". pub qualified_name: String, } /// A binding for a submodule imported from a module, keyed on the name of the parent module. /// Ex) `import foo.bar` would be keyed on "foo". #[derive(Debug, Clone)] pub struct SubmoduleImport<'a> { /// The full name of the submodule being imported. /// Ex) Given `import foo.bar`, `qualified_name` would be "foo.bar". pub qualified_name: &'a str, } #[derive(Debug, Clone, is_macro::Is)] pub enum BindingKind<'a> { /// A binding for an annotated assignment without a value, like `x` in: /// ```python /// x: int /// ``` Annotation, /// A binding for a function argument, like `x` in: /// ```python /// def foo(x: int): /// ... /// ``` Argument, /// A binding for a named expression assignment, like `x` in: /// ```python /// if (x := 1): /// ... /// ``` NamedExprAssignment, /// A binding for a unpacking-based assignment, like `x` in: /// ```python /// x, y = (1, 2) /// ``` UnpackedAssignment, /// A binding for a "standard" assignment, like `x` in: /// ```python /// x = 1 /// ``` Assignment, /// A binding for a for-loop variable, like `x` in: /// ```python /// for x in range(10): /// ... /// ``` LoopVar, /// A binding for a global variable, like `x` in: /// ```python /// def foo(): /// global x /// ``` Global, /// A binding for a nonlocal variable, like `x` in: /// ```python /// def foo(): /// nonlocal x /// ``` Nonlocal(ScopeId), /// A binding for a builtin, like `print` or `bool`. Builtin, /// A binding for a class, like `Foo` in: /// ```python /// class Foo: /// ... /// ``` ClassDefinition(ScopeId), /// A binding for a function, like `foo` in: /// ```python /// def foo(): /// ... /// ``` FunctionDefinition(ScopeId), /// A binding for an `__all__` export, like `__all__` in: /// ```python /// __all__ = ["foo", "bar"] /// ``` Export(Export<'a>), /// A binding for a `__future__` import, like: /// ```python /// from __future__ import annotations /// ``` FutureImport, /// A binding for a straight `import`, like `foo` in: /// ```python /// import foo /// ``` Import(Import<'a>), /// A binding for a member imported from a module, like `bar` in: /// ```python /// from foo import bar /// ``` FromImport(FromImport), /// A binding for a submodule imported from a module, like `bar` in: /// ```python /// import foo.bar /// ``` SubmoduleImport(SubmoduleImport<'a>), /// A binding for a deletion, like `x` in: /// ```python /// del x /// ``` Deletion, /// A binding to bind an exception to a local variable, like `x` in: /// ```python /// try: /// ... /// except Exception as x: /// ... /// ``` BoundException, /// A binding to unbind a bound local exception, like `x` in: /// ```python /// try: /// ... /// except Exception as x: /// ... /// ``` /// /// After the `except` block, `x` is unbound, despite the lack /// of an explicit `del` statement. /// /// Stores the ID of the binding that was shadowed in the enclosing /// scope, if any. UnboundException(Option), } bitflags! { #[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] pub struct Exceptions: u8 { const NAME_ERROR = 0b0000_0001; const MODULE_NOT_FOUND_ERROR = 0b0000_0010; const IMPORT_ERROR = 0b0000_0100; } }