rust-clippy/clippy_lints/src/utils/sugg.rs

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use rustc::hir;
use rustc::lint::{EarlyContext, LateContext};
use std::borrow::Cow;
use std;
use syntax::ast;
use syntax::util::parser::AssocOp;
use utils::{higher, snippet};
/// A helper type to build suggestion correctly handling parenthesis.
pub enum Sugg<'a> {
/// An expression that never needs parenthesis such as `1337` or `[0; 42]`.
NonParen(Cow<'a, str>),
/// An expression that does not fit in other variants.
MaybeParen(Cow<'a, str>),
/// A binary operator expression, including `as`-casts and explicit type coercion.
BinOp(AssocOp, Cow<'a, str>),
}
impl<'a> std::fmt::Display for Sugg<'a> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
match *self {
Sugg::NonParen(ref s) | Sugg::MaybeParen(ref s) | Sugg::BinOp(_, ref s) => {
s.fmt(f)
}
}
}
}
impl<'a> Sugg<'a> {
pub fn hir(cx: &LateContext, expr: &'a hir::Expr, default: &'a str) -> Sugg<'a> {
let snippet = snippet(cx, expr.span, default);
match expr.node {
hir::ExprAddrOf(..) |
hir::ExprBox(..) |
hir::ExprClosure(..) |
hir::ExprIf(..) |
hir::ExprUnary(..) |
hir::ExprMatch(..) => Sugg::MaybeParen(snippet),
hir::ExprAgain(..) |
hir::ExprBlock(..) |
hir::ExprBreak(..) |
hir::ExprCall(..) |
hir::ExprField(..) |
hir::ExprIndex(..) |
hir::ExprInlineAsm(..) |
hir::ExprLit(..) |
hir::ExprLoop(..) |
hir::ExprMethodCall(..) |
hir::ExprPath(..) |
hir::ExprRepeat(..) |
hir::ExprRet(..) |
hir::ExprStruct(..) |
hir::ExprTup(..) |
hir::ExprTupField(..) |
hir::ExprVec(..) |
hir::ExprWhile(..) => Sugg::NonParen(snippet),
hir::ExprAssign(..) => Sugg::BinOp(AssocOp::Assign, snippet),
hir::ExprAssignOp(op, ..) => Sugg::BinOp(hirbinop2assignop(op), snippet),
hir::ExprBinary(op, ..) => Sugg::BinOp(AssocOp::from_ast_binop(higher::binop(op.node)), snippet),
hir::ExprCast(..) => Sugg::BinOp(AssocOp::As, snippet),
hir::ExprType(..) => Sugg::BinOp(AssocOp::Colon, snippet),
}
}
pub fn ast(cx: &EarlyContext, expr: &'a ast::Expr, default: &'a str) -> Sugg<'a> {
use syntax::ast::RangeLimits;
let snippet = snippet(cx, expr.span, default);
match expr.node {
ast::ExprKind::AddrOf(..) |
ast::ExprKind::Box(..) |
ast::ExprKind::Closure(..) |
ast::ExprKind::If(..) |
ast::ExprKind::IfLet(..) |
ast::ExprKind::InPlace(..) |
ast::ExprKind::Unary(..) |
ast::ExprKind::Match(..) => Sugg::MaybeParen(snippet),
ast::ExprKind::Block(..) |
ast::ExprKind::Break(..) |
ast::ExprKind::Call(..) |
ast::ExprKind::Continue(..) |
ast::ExprKind::Field(..) |
ast::ExprKind::ForLoop(..) |
ast::ExprKind::Index(..) |
ast::ExprKind::InlineAsm(..) |
ast::ExprKind::Lit(..) |
ast::ExprKind::Loop(..) |
ast::ExprKind::Mac(..) |
ast::ExprKind::MethodCall(..) |
ast::ExprKind::Paren(..) |
ast::ExprKind::Path(..) |
ast::ExprKind::Repeat(..) |
ast::ExprKind::Ret(..) |
ast::ExprKind::Struct(..) |
ast::ExprKind::Try(..) |
ast::ExprKind::Tup(..) |
ast::ExprKind::TupField(..) |
ast::ExprKind::Vec(..) |
ast::ExprKind::While(..) |
ast::ExprKind::WhileLet(..) => Sugg::NonParen(snippet),
ast::ExprKind::Range(.., RangeLimits::HalfOpen) => Sugg::BinOp(AssocOp::DotDot, snippet),
ast::ExprKind::Range(.., RangeLimits::Closed) => Sugg::BinOp(AssocOp::DotDotDot, snippet),
ast::ExprKind::Assign(..) => Sugg::BinOp(AssocOp::Assign, snippet),
ast::ExprKind::AssignOp(op, ..) => Sugg::BinOp(astbinop2assignop(op), snippet),
ast::ExprKind::Binary(op, ..) => Sugg::BinOp(AssocOp::from_ast_binop(op.node), snippet),
ast::ExprKind::Cast(..) => Sugg::BinOp(AssocOp::As, snippet),
ast::ExprKind::Type(..) => Sugg::BinOp(AssocOp::Colon, snippet),
}
}
/// Convenience method to create the `lhs && rhs` suggestion.
pub fn and(&self, rhs: &Self) -> Sugg<'static> {
make_binop(ast::BinOpKind::And, self, rhs)
}
/// Convenience method to create the `&<expr>` suggestion.
pub fn addr(&self) -> Sugg<'static> {
make_unop("&", self)
}
}
impl<'a, 'b> std::ops::Sub<&'b Sugg<'b>> for &'a Sugg<'a> {
type Output = Sugg<'static>;
fn sub(self, rhs: &'b Sugg<'b>) -> Sugg<'static> {
make_binop(ast::BinOpKind::Sub, self, rhs)
}
}
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impl<'a> std::ops::Not for &'a Sugg<'a> {
type Output = Sugg<'static>;
fn not(self) -> Sugg<'static> {
make_unop("!", self)
}
}
struct ParenHelper<T> {
paren: bool,
wrapped: T,
}
impl<T> ParenHelper<T> {
fn new(paren: bool, wrapped: T) -> Self {
ParenHelper {
paren: paren,
wrapped: wrapped,
}
}
}
impl<T: std::fmt::Display> std::fmt::Display for ParenHelper<T> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
if self.paren {
write!(f, "({})", self.wrapped)
} else {
self.wrapped.fmt(f)
}
}
}
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/// Build the string for `<op> <expr>` adding parenthesis when necessary.
///
/// For convenience, the operator is taken as a string because all unary operators have the same
/// precedence.
pub fn make_unop(op: &str, expr: &Sugg) -> Sugg<'static> {
let needs_paren = !matches!(*expr, Sugg::NonParen(..));
Sugg::MaybeParen(format!("{}{}", op, ParenHelper::new(needs_paren, expr)).into())
}
/// Build the string for `<lhs> <op> <rhs>` adding parenthesis when necessary.
///
/// Precedence of shift operator relative to other arithmetic operation is often confusing so
/// parenthesis will always be added for a mix of these.
pub fn make_binop(op: ast::BinOpKind, lhs: &Sugg, rhs: &Sugg) -> Sugg<'static> {
fn is_shift(op: &AssocOp) -> bool {
matches!(*op, AssocOp::ShiftLeft | AssocOp::ShiftRight)
}
fn is_arith(op: &AssocOp) -> bool {
matches!(*op, AssocOp::Add | AssocOp::Subtract | AssocOp::Multiply | AssocOp::Divide | AssocOp::Modulus)
}
fn needs_paren(op: &AssocOp, other: &AssocOp, dir: Associativity) -> bool {
other.precedence() < op.precedence() ||
(other.precedence() == op.precedence() &&
((op != other && associativity(op) != dir) ||
(op == other && associativity(op) != Associativity::Both))) ||
is_shift(op) && is_arith(other) ||
is_shift(other) && is_arith(op)
}
let aop = AssocOp::from_ast_binop(op);
let lhs_paren = if let Sugg::BinOp(ref lop, _) = *lhs {
needs_paren(&aop, lop, Associativity::Left)
} else {
false
};
let rhs_paren = if let Sugg::BinOp(ref rop, _) = *rhs {
needs_paren(&aop, rop, Associativity::Right)
} else {
false
};
Sugg::BinOp(aop,
format!("{} {} {}",
ParenHelper::new(lhs_paren, lhs),
op.to_string(),
ParenHelper::new(rhs_paren, rhs)).into())
}
#[derive(PartialEq, Eq)]
enum Associativity {
Both,
Left,
None,
Right,
}
/// Return the associativity/fixity of an operator. The difference with `AssocOp::fixity` is that
/// an operator can be both left and right associative (such as `+`:
/// `a + b + c == (a + b) + c == a + (b + c)`.
///
/// Chained `as` and explicit `:` type coercion never need inner parenthesis so they are considered
/// associative.
fn associativity(op: &AssocOp) -> Associativity {
use syntax::util::parser::AssocOp::*;
match *op {
Inplace | Assign | AssignOp(_) => Associativity::Right,
Add | BitAnd | BitOr | BitXor | LAnd | LOr | Multiply |
As | Colon => Associativity::Both,
Divide | Equal | Greater | GreaterEqual | Less | LessEqual | Modulus | NotEqual | ShiftLeft |
ShiftRight | Subtract => Associativity::Left,
DotDot | DotDotDot => Associativity::None
}
}
/// Convert a `hir::BinOp` to the corresponding assigning binary operator.
fn hirbinop2assignop(op: hir::BinOp) -> AssocOp {
use rustc::hir::BinOp_::*;
use syntax::parse::token::BinOpToken::*;
AssocOp::AssignOp(match op.node {
BiAdd => Plus,
BiBitAnd => And,
BiBitOr => Or,
BiBitXor => Caret,
BiDiv => Slash,
BiMul => Star,
BiRem => Percent,
BiShl => Shl,
BiShr => Shr,
BiSub => Minus,
BiAnd | BiEq | BiGe | BiGt | BiLe | BiLt | BiNe | BiOr => panic!("This operator does not exist"),
})
}
/// Convert an `ast::BinOp` to the corresponding assigning binary operator.
fn astbinop2assignop(op: ast::BinOp) -> AssocOp {
use syntax::ast::BinOpKind::*;
use syntax::parse::token::BinOpToken;
AssocOp::AssignOp(match op.node {
Add => BinOpToken::Plus,
BitAnd => BinOpToken::And,
BitOr => BinOpToken::Or,
BitXor => BinOpToken::Caret,
Div => BinOpToken::Slash,
Mul => BinOpToken::Star,
Rem => BinOpToken::Percent,
Shl => BinOpToken::Shl,
Shr => BinOpToken::Shr,
Sub => BinOpToken::Minus,
And | Eq | Ge | Gt | Le | Lt | Ne | Or => panic!("This operator does not exist"),
})
}