nac3/nac3ast/src/ast_gen.rs

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// File automatically generated by ast/asdl_rs.py.
pub use crate::constant::*;
pub use crate::location::Location;
type Ident = String;
#[derive(Debug, PartialEq)]
pub struct Located<T, U = ()> {
pub location: Location,
pub custom: U,
pub node: T,
}
impl<T> Located<T> {
pub fn new(location: Location, node: T) -> Self {
Self {
location,
custom: (),
node,
}
}
}
#[derive(Debug, PartialEq)]
pub enum Mod<U = ()> {
Module {
body: Vec<Stmt<U>>,
type_ignores: Vec<TypeIgnore>,
},
Interactive {
body: Vec<Stmt<U>>,
},
Expression {
body: Box<Expr<U>>,
},
FunctionType {
argtypes: Vec<Expr<U>>,
returns: Box<Expr<U>>,
},
}
#[derive(Debug, PartialEq)]
pub enum StmtKind<U = ()> {
FunctionDef {
name: Ident,
args: Box<Arguments<U>>,
body: Vec<Stmt<U>>,
decorator_list: Vec<Expr<U>>,
returns: Option<Box<Expr<U>>>,
type_comment: Option<String>,
},
AsyncFunctionDef {
name: Ident,
args: Box<Arguments<U>>,
body: Vec<Stmt<U>>,
decorator_list: Vec<Expr<U>>,
returns: Option<Box<Expr<U>>>,
type_comment: Option<String>,
},
ClassDef {
name: Ident,
bases: Vec<Expr<U>>,
keywords: Vec<Keyword<U>>,
body: Vec<Stmt<U>>,
decorator_list: Vec<Expr<U>>,
},
Return {
value: Option<Box<Expr<U>>>,
},
Delete {
targets: Vec<Expr<U>>,
},
Assign {
targets: Vec<Expr<U>>,
value: Box<Expr<U>>,
type_comment: Option<String>,
},
AugAssign {
target: Box<Expr<U>>,
op: Operator,
value: Box<Expr<U>>,
},
AnnAssign {
target: Box<Expr<U>>,
annotation: Box<Expr<U>>,
value: Option<Box<Expr<U>>>,
simple: bool,
},
For {
target: Box<Expr<U>>,
iter: Box<Expr<U>>,
body: Vec<Stmt<U>>,
orelse: Vec<Stmt<U>>,
type_comment: Option<String>,
},
AsyncFor {
target: Box<Expr<U>>,
iter: Box<Expr<U>>,
body: Vec<Stmt<U>>,
orelse: Vec<Stmt<U>>,
type_comment: Option<String>,
},
While {
test: Box<Expr<U>>,
body: Vec<Stmt<U>>,
orelse: Vec<Stmt<U>>,
},
If {
test: Box<Expr<U>>,
body: Vec<Stmt<U>>,
orelse: Vec<Stmt<U>>,
},
With {
items: Vec<Withitem<U>>,
body: Vec<Stmt<U>>,
type_comment: Option<String>,
},
AsyncWith {
items: Vec<Withitem<U>>,
body: Vec<Stmt<U>>,
type_comment: Option<String>,
},
Raise {
exc: Option<Box<Expr<U>>>,
cause: Option<Box<Expr<U>>>,
},
Try {
body: Vec<Stmt<U>>,
handlers: Vec<Excepthandler<U>>,
orelse: Vec<Stmt<U>>,
finalbody: Vec<Stmt<U>>,
},
Assert {
test: Box<Expr<U>>,
msg: Option<Box<Expr<U>>>,
},
Import {
names: Vec<Alias>,
},
ImportFrom {
module: Option<Ident>,
names: Vec<Alias>,
level: usize,
},
Global {
names: Vec<Ident>,
},
Nonlocal {
names: Vec<Ident>,
},
Expr {
value: Box<Expr<U>>,
},
Pass,
Break,
Continue,
}
pub type Stmt<U = ()> = Located<StmtKind<U>, U>;
#[derive(Debug, PartialEq)]
pub enum ExprKind<U = ()> {
BoolOp {
op: Boolop,
values: Vec<Expr<U>>,
},
NamedExpr {
target: Box<Expr<U>>,
value: Box<Expr<U>>,
},
BinOp {
left: Box<Expr<U>>,
op: Operator,
right: Box<Expr<U>>,
},
UnaryOp {
op: Unaryop,
operand: Box<Expr<U>>,
},
Lambda {
args: Box<Arguments<U>>,
body: Box<Expr<U>>,
},
IfExp {
test: Box<Expr<U>>,
body: Box<Expr<U>>,
orelse: Box<Expr<U>>,
},
Dict {
keys: Vec<Option<Box<Expr<U>>>>,
values: Vec<Expr<U>>,
},
Set {
elts: Vec<Expr<U>>,
},
ListComp {
elt: Box<Expr<U>>,
generators: Vec<Comprehension<U>>,
},
SetComp {
elt: Box<Expr<U>>,
generators: Vec<Comprehension<U>>,
},
DictComp {
key: Box<Expr<U>>,
value: Box<Expr<U>>,
generators: Vec<Comprehension<U>>,
},
GeneratorExp {
elt: Box<Expr<U>>,
generators: Vec<Comprehension<U>>,
},
Await {
value: Box<Expr<U>>,
},
Yield {
value: Option<Box<Expr<U>>>,
},
YieldFrom {
value: Box<Expr<U>>,
},
Compare {
left: Box<Expr<U>>,
ops: Vec<Cmpop>,
comparators: Vec<Expr<U>>,
},
Call {
func: Box<Expr<U>>,
args: Vec<Expr<U>>,
keywords: Vec<Keyword<U>>,
},
FormattedValue {
value: Box<Expr<U>>,
conversion: Option<ConversionFlag>,
format_spec: Option<Box<Expr<U>>>,
},
JoinedStr {
values: Vec<Expr<U>>,
},
Constant {
value: Constant,
kind: Option<String>,
},
Attribute {
value: Box<Expr<U>>,
attr: Ident,
ctx: ExprContext,
},
Subscript {
value: Box<Expr<U>>,
slice: Box<Expr<U>>,
ctx: ExprContext,
},
Starred {
value: Box<Expr<U>>,
ctx: ExprContext,
},
Name {
id: Ident,
ctx: ExprContext,
},
List {
elts: Vec<Expr<U>>,
ctx: ExprContext,
},
Tuple {
elts: Vec<Expr<U>>,
ctx: ExprContext,
},
Slice {
lower: Option<Box<Expr<U>>>,
upper: Option<Box<Expr<U>>>,
step: Option<Box<Expr<U>>>,
},
}
pub type Expr<U = ()> = Located<ExprKind<U>, U>;
#[derive(Debug, PartialEq)]
pub enum ExprContext {
Load,
Store,
Del,
}
#[derive(Debug, PartialEq)]
pub enum Boolop {
And,
Or,
}
#[derive(Debug, PartialEq)]
pub enum Operator {
Add,
Sub,
Mult,
MatMult,
Div,
Mod,
Pow,
LShift,
RShift,
BitOr,
BitXor,
BitAnd,
FloorDiv,
}
#[derive(Debug, PartialEq)]
pub enum Unaryop {
Invert,
Not,
UAdd,
USub,
}
#[derive(Debug, PartialEq)]
pub enum Cmpop {
Eq,
NotEq,
Lt,
LtE,
Gt,
GtE,
Is,
IsNot,
In,
NotIn,
}
#[derive(Debug, PartialEq)]
pub struct Comprehension<U = ()> {
pub target: Box<Expr<U>>,
pub iter: Box<Expr<U>>,
pub ifs: Vec<Expr<U>>,
pub is_async: bool,
}
#[derive(Debug, PartialEq)]
pub enum ExcepthandlerKind<U = ()> {
ExceptHandler {
type_: Option<Box<Expr<U>>>,
name: Option<Ident>,
body: Vec<Stmt<U>>,
},
}
pub type Excepthandler<U = ()> = Located<ExcepthandlerKind<U>, U>;
#[derive(Debug, PartialEq)]
pub struct Arguments<U = ()> {
pub posonlyargs: Vec<Arg<U>>,
pub args: Vec<Arg<U>>,
pub vararg: Option<Box<Arg<U>>>,
pub kwonlyargs: Vec<Arg<U>>,
pub kw_defaults: Vec<Option<Box<Expr<U>>>>,
pub kwarg: Option<Box<Arg<U>>>,
pub defaults: Vec<Expr<U>>,
}
#[derive(Debug, PartialEq)]
pub struct ArgData<U = ()> {
pub arg: Ident,
pub annotation: Option<Box<Expr<U>>>,
pub type_comment: Option<String>,
}
pub type Arg<U = ()> = Located<ArgData<U>, U>;
#[derive(Debug, PartialEq)]
pub struct KeywordData<U = ()> {
pub arg: Option<Ident>,
pub value: Box<Expr<U>>,
}
pub type Keyword<U = ()> = Located<KeywordData<U>, U>;
#[derive(Debug, PartialEq)]
pub struct Alias {
pub name: Ident,
pub asname: Option<Ident>,
}
#[derive(Debug, PartialEq)]
pub struct Withitem<U = ()> {
pub context_expr: Box<Expr<U>>,
pub optional_vars: Option<Box<Expr<U>>>,
}
#[derive(Debug, PartialEq)]
pub enum TypeIgnore {
TypeIgnore { lineno: usize, tag: String },
}
#[cfg(feature = "fold")]
pub mod fold {
use super::*;
use crate::fold_helpers::Foldable;
pub trait Fold<U> {
type TargetU;
type Error;
fn map_user(&mut self, user: U) -> Result<Self::TargetU, Self::Error>;
fn fold_mod(&mut self, node: Mod<U>) -> Result<Mod<Self::TargetU>, Self::Error> {
fold_mod(self, node)
}
fn fold_stmt(&mut self, node: Stmt<U>) -> Result<Stmt<Self::TargetU>, Self::Error> {
fold_stmt(self, node)
}
fn fold_expr(&mut self, node: Expr<U>) -> Result<Expr<Self::TargetU>, Self::Error> {
fold_expr(self, node)
}
fn fold_expr_context(&mut self, node: ExprContext) -> Result<ExprContext, Self::Error> {
fold_expr_context(self, node)
}
fn fold_boolop(&mut self, node: Boolop) -> Result<Boolop, Self::Error> {
fold_boolop(self, node)
}
fn fold_operator(&mut self, node: Operator) -> Result<Operator, Self::Error> {
fold_operator(self, node)
}
fn fold_unaryop(&mut self, node: Unaryop) -> Result<Unaryop, Self::Error> {
fold_unaryop(self, node)
}
fn fold_cmpop(&mut self, node: Cmpop) -> Result<Cmpop, Self::Error> {
fold_cmpop(self, node)
}
fn fold_comprehension(
&mut self,
node: Comprehension<U>,
) -> Result<Comprehension<Self::TargetU>, Self::Error> {
fold_comprehension(self, node)
}
fn fold_excepthandler(
&mut self,
node: Excepthandler<U>,
) -> Result<Excepthandler<Self::TargetU>, Self::Error> {
fold_excepthandler(self, node)
}
fn fold_arguments(
&mut self,
node: Arguments<U>,
) -> Result<Arguments<Self::TargetU>, Self::Error> {
fold_arguments(self, node)
}
fn fold_arg(&mut self, node: Arg<U>) -> Result<Arg<Self::TargetU>, Self::Error> {
fold_arg(self, node)
}
fn fold_keyword(
&mut self,
node: Keyword<U>,
) -> Result<Keyword<Self::TargetU>, Self::Error> {
fold_keyword(self, node)
}
fn fold_alias(&mut self, node: Alias) -> Result<Alias, Self::Error> {
fold_alias(self, node)
}
fn fold_withitem(
&mut self,
node: Withitem<U>,
) -> Result<Withitem<Self::TargetU>, Self::Error> {
fold_withitem(self, node)
}
fn fold_type_ignore(&mut self, node: TypeIgnore) -> Result<TypeIgnore, Self::Error> {
fold_type_ignore(self, node)
}
}
fn fold_located<U, F: Fold<U> + ?Sized, T, MT>(
folder: &mut F,
node: Located<T, U>,
f: impl FnOnce(&mut F, T) -> Result<MT, F::Error>,
) -> Result<Located<MT, F::TargetU>, F::Error> {
Ok(Located {
custom: folder.map_user(node.custom)?,
location: node.location,
node: f(folder, node.node)?,
})
}
impl<T, U> Foldable<T, U> for Mod<T> {
type Mapped = Mod<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_mod(self)
}
}
pub fn fold_mod<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Mod<U>,
) -> Result<Mod<F::TargetU>, F::Error> {
match node {
Mod::Module { body, type_ignores } => Ok(Mod::Module {
body: Foldable::fold(body, folder)?,
type_ignores: Foldable::fold(type_ignores, folder)?,
}),
Mod::Interactive { body } => Ok(Mod::Interactive {
body: Foldable::fold(body, folder)?,
}),
Mod::Expression { body } => Ok(Mod::Expression {
body: Foldable::fold(body, folder)?,
}),
Mod::FunctionType { argtypes, returns } => Ok(Mod::FunctionType {
argtypes: Foldable::fold(argtypes, folder)?,
returns: Foldable::fold(returns, folder)?,
}),
}
}
impl<T, U> Foldable<T, U> for Stmt<T> {
type Mapped = Stmt<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_stmt(self)
}
}
pub fn fold_stmt<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Stmt<U>,
) -> Result<Stmt<F::TargetU>, F::Error> {
fold_located(folder, node, |folder, node| match node {
StmtKind::FunctionDef {
name,
args,
body,
decorator_list,
returns,
type_comment,
} => Ok(StmtKind::FunctionDef {
name: Foldable::fold(name, folder)?,
args: Foldable::fold(args, folder)?,
body: Foldable::fold(body, folder)?,
decorator_list: Foldable::fold(decorator_list, folder)?,
returns: Foldable::fold(returns, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::AsyncFunctionDef {
name,
args,
body,
decorator_list,
returns,
type_comment,
} => Ok(StmtKind::AsyncFunctionDef {
name: Foldable::fold(name, folder)?,
args: Foldable::fold(args, folder)?,
body: Foldable::fold(body, folder)?,
decorator_list: Foldable::fold(decorator_list, folder)?,
returns: Foldable::fold(returns, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::ClassDef {
name,
bases,
keywords,
body,
decorator_list,
} => Ok(StmtKind::ClassDef {
name: Foldable::fold(name, folder)?,
bases: Foldable::fold(bases, folder)?,
keywords: Foldable::fold(keywords, folder)?,
body: Foldable::fold(body, folder)?,
decorator_list: Foldable::fold(decorator_list, folder)?,
}),
StmtKind::Return { value } => Ok(StmtKind::Return {
value: Foldable::fold(value, folder)?,
}),
StmtKind::Delete { targets } => Ok(StmtKind::Delete {
targets: Foldable::fold(targets, folder)?,
}),
StmtKind::Assign {
targets,
value,
type_comment,
} => Ok(StmtKind::Assign {
targets: Foldable::fold(targets, folder)?,
value: Foldable::fold(value, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::AugAssign { target, op, value } => Ok(StmtKind::AugAssign {
target: Foldable::fold(target, folder)?,
op: Foldable::fold(op, folder)?,
value: Foldable::fold(value, folder)?,
}),
StmtKind::AnnAssign {
target,
annotation,
value,
simple,
} => Ok(StmtKind::AnnAssign {
target: Foldable::fold(target, folder)?,
annotation: Foldable::fold(annotation, folder)?,
value: Foldable::fold(value, folder)?,
simple: Foldable::fold(simple, folder)?,
}),
StmtKind::For {
target,
iter,
body,
orelse,
type_comment,
} => Ok(StmtKind::For {
target: Foldable::fold(target, folder)?,
iter: Foldable::fold(iter, folder)?,
body: Foldable::fold(body, folder)?,
orelse: Foldable::fold(orelse, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::AsyncFor {
target,
iter,
body,
orelse,
type_comment,
} => Ok(StmtKind::AsyncFor {
target: Foldable::fold(target, folder)?,
iter: Foldable::fold(iter, folder)?,
body: Foldable::fold(body, folder)?,
orelse: Foldable::fold(orelse, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::While { test, body, orelse } => Ok(StmtKind::While {
test: Foldable::fold(test, folder)?,
body: Foldable::fold(body, folder)?,
orelse: Foldable::fold(orelse, folder)?,
}),
StmtKind::If { test, body, orelse } => Ok(StmtKind::If {
test: Foldable::fold(test, folder)?,
body: Foldable::fold(body, folder)?,
orelse: Foldable::fold(orelse, folder)?,
}),
StmtKind::With {
items,
body,
type_comment,
} => Ok(StmtKind::With {
items: Foldable::fold(items, folder)?,
body: Foldable::fold(body, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::AsyncWith {
items,
body,
type_comment,
} => Ok(StmtKind::AsyncWith {
items: Foldable::fold(items, folder)?,
body: Foldable::fold(body, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
}),
StmtKind::Raise { exc, cause } => Ok(StmtKind::Raise {
exc: Foldable::fold(exc, folder)?,
cause: Foldable::fold(cause, folder)?,
}),
StmtKind::Try {
body,
handlers,
orelse,
finalbody,
} => Ok(StmtKind::Try {
body: Foldable::fold(body, folder)?,
handlers: Foldable::fold(handlers, folder)?,
orelse: Foldable::fold(orelse, folder)?,
finalbody: Foldable::fold(finalbody, folder)?,
}),
StmtKind::Assert { test, msg } => Ok(StmtKind::Assert {
test: Foldable::fold(test, folder)?,
msg: Foldable::fold(msg, folder)?,
}),
StmtKind::Import { names } => Ok(StmtKind::Import {
names: Foldable::fold(names, folder)?,
}),
StmtKind::ImportFrom {
module,
names,
level,
} => Ok(StmtKind::ImportFrom {
module: Foldable::fold(module, folder)?,
names: Foldable::fold(names, folder)?,
level: Foldable::fold(level, folder)?,
}),
StmtKind::Global { names } => Ok(StmtKind::Global {
names: Foldable::fold(names, folder)?,
}),
StmtKind::Nonlocal { names } => Ok(StmtKind::Nonlocal {
names: Foldable::fold(names, folder)?,
}),
StmtKind::Expr { value } => Ok(StmtKind::Expr {
value: Foldable::fold(value, folder)?,
}),
StmtKind::Pass {} => Ok(StmtKind::Pass {}),
StmtKind::Break {} => Ok(StmtKind::Break {}),
StmtKind::Continue {} => Ok(StmtKind::Continue {}),
})
}
impl<T, U> Foldable<T, U> for Expr<T> {
type Mapped = Expr<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_expr(self)
}
}
pub fn fold_expr<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Expr<U>,
) -> Result<Expr<F::TargetU>, F::Error> {
fold_located(folder, node, |folder, node| match node {
ExprKind::BoolOp { op, values } => Ok(ExprKind::BoolOp {
op: Foldable::fold(op, folder)?,
values: Foldable::fold(values, folder)?,
}),
ExprKind::NamedExpr { target, value } => Ok(ExprKind::NamedExpr {
target: Foldable::fold(target, folder)?,
value: Foldable::fold(value, folder)?,
}),
ExprKind::BinOp { left, op, right } => Ok(ExprKind::BinOp {
left: Foldable::fold(left, folder)?,
op: Foldable::fold(op, folder)?,
right: Foldable::fold(right, folder)?,
}),
ExprKind::UnaryOp { op, operand } => Ok(ExprKind::UnaryOp {
op: Foldable::fold(op, folder)?,
operand: Foldable::fold(operand, folder)?,
}),
ExprKind::Lambda { args, body } => Ok(ExprKind::Lambda {
args: Foldable::fold(args, folder)?,
body: Foldable::fold(body, folder)?,
}),
ExprKind::IfExp { test, body, orelse } => Ok(ExprKind::IfExp {
test: Foldable::fold(test, folder)?,
body: Foldable::fold(body, folder)?,
orelse: Foldable::fold(orelse, folder)?,
}),
ExprKind::Dict { keys, values } => Ok(ExprKind::Dict {
keys: Foldable::fold(keys, folder)?,
values: Foldable::fold(values, folder)?,
}),
ExprKind::Set { elts } => Ok(ExprKind::Set {
elts: Foldable::fold(elts, folder)?,
}),
ExprKind::ListComp { elt, generators } => Ok(ExprKind::ListComp {
elt: Foldable::fold(elt, folder)?,
generators: Foldable::fold(generators, folder)?,
}),
ExprKind::SetComp { elt, generators } => Ok(ExprKind::SetComp {
elt: Foldable::fold(elt, folder)?,
generators: Foldable::fold(generators, folder)?,
}),
ExprKind::DictComp {
key,
value,
generators,
} => Ok(ExprKind::DictComp {
key: Foldable::fold(key, folder)?,
value: Foldable::fold(value, folder)?,
generators: Foldable::fold(generators, folder)?,
}),
ExprKind::GeneratorExp { elt, generators } => Ok(ExprKind::GeneratorExp {
elt: Foldable::fold(elt, folder)?,
generators: Foldable::fold(generators, folder)?,
}),
ExprKind::Await { value } => Ok(ExprKind::Await {
value: Foldable::fold(value, folder)?,
}),
ExprKind::Yield { value } => Ok(ExprKind::Yield {
value: Foldable::fold(value, folder)?,
}),
ExprKind::YieldFrom { value } => Ok(ExprKind::YieldFrom {
value: Foldable::fold(value, folder)?,
}),
ExprKind::Compare {
left,
ops,
comparators,
} => Ok(ExprKind::Compare {
left: Foldable::fold(left, folder)?,
ops: Foldable::fold(ops, folder)?,
comparators: Foldable::fold(comparators, folder)?,
}),
ExprKind::Call {
func,
args,
keywords,
} => Ok(ExprKind::Call {
func: Foldable::fold(func, folder)?,
args: Foldable::fold(args, folder)?,
keywords: Foldable::fold(keywords, folder)?,
}),
ExprKind::FormattedValue {
value,
conversion,
format_spec,
} => Ok(ExprKind::FormattedValue {
value: Foldable::fold(value, folder)?,
conversion: Foldable::fold(conversion, folder)?,
format_spec: Foldable::fold(format_spec, folder)?,
}),
ExprKind::JoinedStr { values } => Ok(ExprKind::JoinedStr {
values: Foldable::fold(values, folder)?,
}),
ExprKind::Constant { value, kind } => Ok(ExprKind::Constant {
value: Foldable::fold(value, folder)?,
kind: Foldable::fold(kind, folder)?,
}),
ExprKind::Attribute { value, attr, ctx } => Ok(ExprKind::Attribute {
value: Foldable::fold(value, folder)?,
attr: Foldable::fold(attr, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::Subscript { value, slice, ctx } => Ok(ExprKind::Subscript {
value: Foldable::fold(value, folder)?,
slice: Foldable::fold(slice, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::Starred { value, ctx } => Ok(ExprKind::Starred {
value: Foldable::fold(value, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::Name { id, ctx } => Ok(ExprKind::Name {
id: Foldable::fold(id, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::List { elts, ctx } => Ok(ExprKind::List {
elts: Foldable::fold(elts, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::Tuple { elts, ctx } => Ok(ExprKind::Tuple {
elts: Foldable::fold(elts, folder)?,
ctx: Foldable::fold(ctx, folder)?,
}),
ExprKind::Slice { lower, upper, step } => Ok(ExprKind::Slice {
lower: Foldable::fold(lower, folder)?,
upper: Foldable::fold(upper, folder)?,
step: Foldable::fold(step, folder)?,
}),
})
}
impl<T, U> Foldable<T, U> for ExprContext {
type Mapped = ExprContext;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_expr_context(self)
}
}
pub fn fold_expr_context<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: ExprContext,
) -> Result<ExprContext, F::Error> {
match node {
ExprContext::Load {} => Ok(ExprContext::Load {}),
ExprContext::Store {} => Ok(ExprContext::Store {}),
ExprContext::Del {} => Ok(ExprContext::Del {}),
}
}
impl<T, U> Foldable<T, U> for Boolop {
type Mapped = Boolop;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_boolop(self)
}
}
pub fn fold_boolop<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Boolop,
) -> Result<Boolop, F::Error> {
match node {
Boolop::And {} => Ok(Boolop::And {}),
Boolop::Or {} => Ok(Boolop::Or {}),
}
}
impl<T, U> Foldable<T, U> for Operator {
type Mapped = Operator;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_operator(self)
}
}
pub fn fold_operator<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Operator,
) -> Result<Operator, F::Error> {
match node {
Operator::Add {} => Ok(Operator::Add {}),
Operator::Sub {} => Ok(Operator::Sub {}),
Operator::Mult {} => Ok(Operator::Mult {}),
Operator::MatMult {} => Ok(Operator::MatMult {}),
Operator::Div {} => Ok(Operator::Div {}),
Operator::Mod {} => Ok(Operator::Mod {}),
Operator::Pow {} => Ok(Operator::Pow {}),
Operator::LShift {} => Ok(Operator::LShift {}),
Operator::RShift {} => Ok(Operator::RShift {}),
Operator::BitOr {} => Ok(Operator::BitOr {}),
Operator::BitXor {} => Ok(Operator::BitXor {}),
Operator::BitAnd {} => Ok(Operator::BitAnd {}),
Operator::FloorDiv {} => Ok(Operator::FloorDiv {}),
}
}
impl<T, U> Foldable<T, U> for Unaryop {
type Mapped = Unaryop;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_unaryop(self)
}
}
pub fn fold_unaryop<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Unaryop,
) -> Result<Unaryop, F::Error> {
match node {
Unaryop::Invert {} => Ok(Unaryop::Invert {}),
Unaryop::Not {} => Ok(Unaryop::Not {}),
Unaryop::UAdd {} => Ok(Unaryop::UAdd {}),
Unaryop::USub {} => Ok(Unaryop::USub {}),
}
}
impl<T, U> Foldable<T, U> for Cmpop {
type Mapped = Cmpop;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_cmpop(self)
}
}
pub fn fold_cmpop<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Cmpop,
) -> Result<Cmpop, F::Error> {
match node {
Cmpop::Eq {} => Ok(Cmpop::Eq {}),
Cmpop::NotEq {} => Ok(Cmpop::NotEq {}),
Cmpop::Lt {} => Ok(Cmpop::Lt {}),
Cmpop::LtE {} => Ok(Cmpop::LtE {}),
Cmpop::Gt {} => Ok(Cmpop::Gt {}),
Cmpop::GtE {} => Ok(Cmpop::GtE {}),
Cmpop::Is {} => Ok(Cmpop::Is {}),
Cmpop::IsNot {} => Ok(Cmpop::IsNot {}),
Cmpop::In {} => Ok(Cmpop::In {}),
Cmpop::NotIn {} => Ok(Cmpop::NotIn {}),
}
}
impl<T, U> Foldable<T, U> for Comprehension<T> {
type Mapped = Comprehension<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_comprehension(self)
}
}
pub fn fold_comprehension<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Comprehension<U>,
) -> Result<Comprehension<F::TargetU>, F::Error> {
let Comprehension {
target,
iter,
ifs,
is_async,
} = node;
Ok(Comprehension {
target: Foldable::fold(target, folder)?,
iter: Foldable::fold(iter, folder)?,
ifs: Foldable::fold(ifs, folder)?,
is_async: Foldable::fold(is_async, folder)?,
})
}
impl<T, U> Foldable<T, U> for Excepthandler<T> {
type Mapped = Excepthandler<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_excepthandler(self)
}
}
pub fn fold_excepthandler<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Excepthandler<U>,
) -> Result<Excepthandler<F::TargetU>, F::Error> {
fold_located(folder, node, |folder, node| match node {
ExcepthandlerKind::ExceptHandler { type_, name, body } => {
Ok(ExcepthandlerKind::ExceptHandler {
type_: Foldable::fold(type_, folder)?,
name: Foldable::fold(name, folder)?,
body: Foldable::fold(body, folder)?,
})
}
})
}
impl<T, U> Foldable<T, U> for Arguments<T> {
type Mapped = Arguments<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_arguments(self)
}
}
pub fn fold_arguments<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Arguments<U>,
) -> Result<Arguments<F::TargetU>, F::Error> {
let Arguments {
posonlyargs,
args,
vararg,
kwonlyargs,
kw_defaults,
kwarg,
defaults,
} = node;
Ok(Arguments {
posonlyargs: Foldable::fold(posonlyargs, folder)?,
args: Foldable::fold(args, folder)?,
vararg: Foldable::fold(vararg, folder)?,
kwonlyargs: Foldable::fold(kwonlyargs, folder)?,
kw_defaults: Foldable::fold(kw_defaults, folder)?,
kwarg: Foldable::fold(kwarg, folder)?,
defaults: Foldable::fold(defaults, folder)?,
})
}
impl<T, U> Foldable<T, U> for Arg<T> {
type Mapped = Arg<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_arg(self)
}
}
pub fn fold_arg<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Arg<U>,
) -> Result<Arg<F::TargetU>, F::Error> {
fold_located(folder, node, |folder, node| {
let ArgData {
arg,
annotation,
type_comment,
} = node;
Ok(ArgData {
arg: Foldable::fold(arg, folder)?,
annotation: Foldable::fold(annotation, folder)?,
type_comment: Foldable::fold(type_comment, folder)?,
})
})
}
impl<T, U> Foldable<T, U> for Keyword<T> {
type Mapped = Keyword<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_keyword(self)
}
}
pub fn fold_keyword<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Keyword<U>,
) -> Result<Keyword<F::TargetU>, F::Error> {
fold_located(folder, node, |folder, node| {
let KeywordData { arg, value } = node;
Ok(KeywordData {
arg: Foldable::fold(arg, folder)?,
value: Foldable::fold(value, folder)?,
})
})
}
impl<T, U> Foldable<T, U> for Alias {
type Mapped = Alias;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_alias(self)
}
}
pub fn fold_alias<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Alias,
) -> Result<Alias, F::Error> {
let Alias { name, asname } = node;
Ok(Alias {
name: Foldable::fold(name, folder)?,
asname: Foldable::fold(asname, folder)?,
})
}
impl<T, U> Foldable<T, U> for Withitem<T> {
type Mapped = Withitem<U>;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_withitem(self)
}
}
pub fn fold_withitem<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: Withitem<U>,
) -> Result<Withitem<F::TargetU>, F::Error> {
let Withitem {
context_expr,
optional_vars,
} = node;
Ok(Withitem {
context_expr: Foldable::fold(context_expr, folder)?,
optional_vars: Foldable::fold(optional_vars, folder)?,
})
}
impl<T, U> Foldable<T, U> for TypeIgnore {
type Mapped = TypeIgnore;
fn fold<F: Fold<T, TargetU = U> + ?Sized>(
self,
folder: &mut F,
) -> Result<Self::Mapped, F::Error> {
folder.fold_type_ignore(self)
}
}
pub fn fold_type_ignore<U, F: Fold<U> + ?Sized>(
#[allow(unused)] folder: &mut F,
node: TypeIgnore,
) -> Result<TypeIgnore, F::Error> {
match node {
TypeIgnore::TypeIgnore { lineno, tag } => Ok(TypeIgnore::TypeIgnore {
lineno: Foldable::fold(lineno, folder)?,
tag: Foldable::fold(tag, folder)?,
}),
}
}
}