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#[cfg(feature = "full")]
use crate::expr::Expr;
#[cfg(any(feature = "printing", feature = "full"))]
use crate::generics::TypeParamBound;
#[cfg(any(feature = "printing", feature = "full"))]
use crate::path::{Path, PathArguments};
#[cfg(any(feature = "printing", feature = "full"))]
use crate::punctuated::Punctuated;
#[cfg(any(feature = "printing", feature = "full"))]
use crate::ty::{ReturnType, Type};
#[cfg(feature = "full")]
use proc_macro2::{Delimiter, TokenStream, TokenTree};
#[cfg(any(feature = "printing", feature = "full"))]
use std::ops::ControlFlow;
#[cfg(feature = "full")]
pub(crate) fn requires_semi_to_be_stmt(expr: &Expr) -> bool {
match expr {
Expr::Macro(expr) => !expr.mac.delimiter.is_brace(),
_ => requires_comma_to_be_match_arm(expr),
}
}
#[cfg(feature = "full")]
pub(crate) fn requires_comma_to_be_match_arm(expr: &Expr) -> bool {
match expr {
Expr::If(_)
| Expr::Match(_)
| Expr::Block(_) | Expr::Unsafe(_) // both under ExprKind::Block in rustc
| Expr::While(_)
| Expr::Loop(_)
| Expr::ForLoop(_)
| Expr::TryBlock(_)
| Expr::Const(_) => false,
Expr::Array(_)
| Expr::Assign(_)
| Expr::Async(_)
| Expr::Await(_)
| Expr::Binary(_)
| Expr::Break(_)
| Expr::Call(_)
| Expr::Cast(_)
| Expr::Closure(_)
| Expr::Continue(_)
| Expr::Field(_)
| Expr::Group(_)
| Expr::Index(_)
| Expr::Infer(_)
| Expr::Let(_)
| Expr::Lit(_)
| Expr::Macro(_)
| Expr::MethodCall(_)
| Expr::Paren(_)
| Expr::Path(_)
| Expr::Range(_)
| Expr::RawAddr(_)
| Expr::Reference(_)
| Expr::Repeat(_)
| Expr::Return(_)
| Expr::Struct(_)
| Expr::Try(_)
| Expr::Tuple(_)
| Expr::Unary(_)
| Expr::Yield(_)
| Expr::Verbatim(_) => true
}
}
#[cfg(all(feature = "printing", feature = "full"))]
pub(crate) fn confusable_with_adjacent_block(mut expr: &Expr) -> bool {
let mut stack = Vec::new();
while let Some(next) = match expr {
Expr::Assign(e) => {
stack.push(&e.right);
Some(&e.left)
}
Expr::Await(e) => Some(&e.base),
Expr::Binary(e) => {
stack.push(&e.right);
Some(&e.left)
}
Expr::Break(e) => {
if let Some(Expr::Block(_)) = e.expr.as_deref() {
return true;
}
stack.pop()
}
Expr::Call(e) => Some(&e.func),
Expr::Cast(e) => Some(&e.expr),
Expr::Closure(e) => Some(&e.body),
Expr::Field(e) => Some(&e.base),
Expr::Index(e) => Some(&e.expr),
Expr::MethodCall(e) => Some(&e.receiver),
Expr::Range(e) => {
if let Some(Expr::Block(_)) = e.end.as_deref() {
return true;
}
match (&e.start, &e.end) {
(Some(start), end) => {
stack.extend(end);
Some(start)
}
(None, Some(end)) => Some(end),
(None, None) => stack.pop(),
}
}
Expr::RawAddr(e) => Some(&e.expr),
Expr::Reference(e) => Some(&e.expr),
Expr::Return(e) => {
if e.expr.is_none() && stack.is_empty() {
return true;
}
stack.pop()
}
Expr::Struct(_) => return true,
Expr::Try(e) => Some(&e.expr),
Expr::Unary(e) => Some(&e.expr),
Expr::Yield(e) => {
if e.expr.is_none() && stack.is_empty() {
return true;
}
stack.pop()
}
Expr::Array(_)
| Expr::Async(_)
| Expr::Block(_)
| Expr::Const(_)
| Expr::Continue(_)
| Expr::ForLoop(_)
| Expr::Group(_)
| Expr::If(_)
| Expr::Infer(_)
| Expr::Let(_)
| Expr::Lit(_)
| Expr::Loop(_)
| Expr::Macro(_)
| Expr::Match(_)
| Expr::Paren(_)
| Expr::Path(_)
| Expr::Repeat(_)
| Expr::TryBlock(_)
| Expr::Tuple(_)
| Expr::Unsafe(_)
| Expr::Verbatim(_)
| Expr::While(_) => stack.pop(),
} {
expr = next;
}
false
}
#[cfg(feature = "printing")]
pub(crate) fn trailing_unparameterized_path(mut ty: &Type) -> bool {
loop {
match ty {
Type::BareFn(t) => match &t.output {
ReturnType::Default => return false,
ReturnType::Type(_, ret) => ty = ret,
},
Type::ImplTrait(t) => match last_type_in_bounds(&t.bounds) {
ControlFlow::Break(trailing_path) => return trailing_path,
ControlFlow::Continue(t) => ty = t,
},
Type::Path(t) => match last_type_in_path(&t.path) {
ControlFlow::Break(trailing_path) => return trailing_path,
ControlFlow::Continue(t) => ty = t,
},
Type::Ptr(t) => ty = &t.elem,
Type::Reference(t) => ty = &t.elem,
Type::TraitObject(t) => match last_type_in_bounds(&t.bounds) {
ControlFlow::Break(trailing_path) => return trailing_path,
ControlFlow::Continue(t) => ty = t,
},
Type::Array(_)
| Type::Group(_)
| Type::Infer(_)
| Type::Macro(_)
| Type::Never(_)
| Type::Paren(_)
| Type::Slice(_)
| Type::Tuple(_)
| Type::Verbatim(_) => return false,
}
}
fn last_type_in_path(path: &Path) -> ControlFlow<bool, &Type> {
match &path.segments.last().unwrap().arguments {
PathArguments::None => ControlFlow::Break(true),
PathArguments::AngleBracketed(_) => ControlFlow::Break(false),
PathArguments::Parenthesized(arg) => match &arg.output {
ReturnType::Default => ControlFlow::Break(false),
ReturnType::Type(_, ret) => ControlFlow::Continue(ret),
},
}
}
fn last_type_in_bounds(
bounds: &Punctuated<TypeParamBound, Token![+]>,
) -> ControlFlow<bool, &Type> {
match bounds.last().unwrap() {
TypeParamBound::Trait(t) => last_type_in_path(&t.path),
TypeParamBound::Lifetime(_)
| TypeParamBound::PreciseCapture(_)
| TypeParamBound::Verbatim(_) => ControlFlow::Break(false),
}
}
}
/// Whether the expression's first token is the label of a loop/block.
#[cfg(all(feature = "printing", feature = "full"))]
pub(crate) fn expr_leading_label(mut expr: &Expr) -> bool {
loop {
match expr {
Expr::Block(e) => return e.label.is_some(),
Expr::ForLoop(e) => return e.label.is_some(),
Expr::Loop(e) => return e.label.is_some(),
Expr::While(e) => return e.label.is_some(),
Expr::Assign(e) => expr = &e.left,
Expr::Await(e) => expr = &e.base,
Expr::Binary(e) => expr = &e.left,
Expr::Call(e) => expr = &e.func,
Expr::Cast(e) => expr = &e.expr,
Expr::Field(e) => expr = &e.base,
Expr::Index(e) => expr = &e.expr,
Expr::MethodCall(e) => expr = &e.receiver,
Expr::Range(e) => match &e.start {
Some(start) => expr = start,
None => return false,
},
Expr::Try(e) => expr = &e.expr,
Expr::Array(_)
| Expr::Async(_)
| Expr::Break(_)
| Expr::Closure(_)
| Expr::Const(_)
| Expr::Continue(_)
| Expr::Group(_)
| Expr::If(_)
| Expr::Infer(_)
| Expr::Let(_)
| Expr::Lit(_)
| Expr::Macro(_)
| Expr::Match(_)
| Expr::Paren(_)
| Expr::Path(_)
| Expr::RawAddr(_)
| Expr::Reference(_)
| Expr::Repeat(_)
| Expr::Return(_)
| Expr::Struct(_)
| Expr::TryBlock(_)
| Expr::Tuple(_)
| Expr::Unary(_)
| Expr::Unsafe(_)
| Expr::Verbatim(_)
| Expr::Yield(_) => return false,
}
}
}
/// Whether the expression's last token is `}`.
#[cfg(feature = "full")]
pub(crate) fn expr_trailing_brace(mut expr: &Expr) -> bool {
loop {
match expr {
Expr::Async(_)
| Expr::Block(_)
| Expr::Const(_)
| Expr::ForLoop(_)
| Expr::If(_)
| Expr::Loop(_)
| Expr::Match(_)
| Expr::Struct(_)
| Expr::TryBlock(_)
| Expr::Unsafe(_)
| Expr::While(_) => return true,
Expr::Assign(e) => expr = &e.right,
Expr::Binary(e) => expr = &e.right,
Expr::Break(e) => match &e.expr {
Some(e) => expr = e,
None => return false,
},
Expr::Cast(e) => return type_trailing_brace(&e.ty),
Expr::Closure(e) => expr = &e.body,
Expr::Let(e) => expr = &e.expr,
Expr::Macro(e) => return e.mac.delimiter.is_brace(),
Expr::Range(e) => match &e.end {
Some(end) => expr = end,
None => return false,
},
Expr::RawAddr(e) => expr = &e.expr,
Expr::Reference(e) => expr = &e.expr,
Expr::Return(e) => match &e.expr {
Some(e) => expr = e,
None => return false,
},
Expr::Unary(e) => expr = &e.expr,
Expr::Verbatim(e) => return tokens_trailing_brace(e),
Expr::Yield(e) => match &e.expr {
Some(e) => expr = e,
None => return false,
},
Expr::Array(_)
| Expr::Await(_)
| Expr::Call(_)
| Expr::Continue(_)
| Expr::Field(_)
| Expr::Group(_)
| Expr::Index(_)
| Expr::Infer(_)
| Expr::Lit(_)
| Expr::MethodCall(_)
| Expr::Paren(_)
| Expr::Path(_)
| Expr::Repeat(_)
| Expr::Try(_)
| Expr::Tuple(_) => return false,
}
}
fn type_trailing_brace(mut ty: &Type) -> bool {
loop {
match ty {
Type::BareFn(t) => match &t.output {
ReturnType::Default => return false,
ReturnType::Type(_, ret) => ty = ret,
},
Type::ImplTrait(t) => match last_type_in_bounds(&t.bounds) {
ControlFlow::Break(trailing_brace) => return trailing_brace,
ControlFlow::Continue(t) => ty = t,
},
Type::Macro(t) => return t.mac.delimiter.is_brace(),
Type::Path(t) => match last_type_in_path(&t.path) {
Some(t) => ty = t,
None => return false,
},
Type::Ptr(t) => ty = &t.elem,
Type::Reference(t) => ty = &t.elem,
Type::TraitObject(t) => match last_type_in_bounds(&t.bounds) {
ControlFlow::Break(trailing_brace) => return trailing_brace,
ControlFlow::Continue(t) => ty = t,
},
Type::Verbatim(t) => return tokens_trailing_brace(t),
Type::Array(_)
| Type::Group(_)
| Type::Infer(_)
| Type::Never(_)
| Type::Paren(_)
| Type::Slice(_)
| Type::Tuple(_) => return false,
}
}
}
fn last_type_in_path(path: &Path) -> Option<&Type> {
match &path.segments.last().unwrap().arguments {
PathArguments::None | PathArguments::AngleBracketed(_) => None,
PathArguments::Parenthesized(arg) => match &arg.output {
ReturnType::Default => None,
ReturnType::Type(_, ret) => Some(ret),
},
}
}
fn last_type_in_bounds(
bounds: &Punctuated<TypeParamBound, Token![+]>,
) -> ControlFlow<bool, &Type> {
match bounds.last().unwrap() {
TypeParamBound::Trait(t) => match last_type_in_path(&t.path) {
Some(t) => ControlFlow::Continue(t),
None => ControlFlow::Break(false),
},
TypeParamBound::Lifetime(_) | TypeParamBound::PreciseCapture(_) => {
ControlFlow::Break(false)
}
TypeParamBound::Verbatim(t) => ControlFlow::Break(tokens_trailing_brace(t)),
}
}
fn tokens_trailing_brace(tokens: &TokenStream) -> bool {
if let Some(TokenTree::Group(last)) = tokens.clone().into_iter().last() {
last.delimiter() == Delimiter::Brace
} else {
false
}
}
}