use syntax::ast::{self, AstNode, BinExpr}; use crate::{AssistContext, AssistId, AssistKind, Assists}; // Assist: flip_binexpr // // Flips operands of a binary expression. // // ``` // fn main() { // let _ = 90 +$0 2; // } // ``` // -> // ``` // fn main() { // let _ = 2 + 90; // } // ``` pub(crate) fn flip_binexpr(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let expr = ctx.find_node_at_offset::()?; let lhs = expr.lhs()?.syntax().clone(); let rhs = expr.rhs()?.syntax().clone(); let op_range = expr.op_token()?.text_range(); // The assist should be applied only if the cursor is on the operator let cursor_in_range = op_range.contains_range(ctx.selection_trimmed()); if !cursor_in_range { return None; } let action: FlipAction = expr.op_kind()?.into(); // The assist should not be applied for certain operators if let FlipAction::DontFlip = action { return None; } acc.add( AssistId("flip_binexpr", AssistKind::RefactorRewrite), "Flip binary expression", op_range, |edit| { if let FlipAction::FlipAndReplaceOp(new_op) = action { edit.replace(op_range, new_op); } edit.replace(lhs.text_range(), rhs.text()); edit.replace(rhs.text_range(), lhs.text()); }, ) } enum FlipAction { // Flip the expression Flip, // Flip the expression and replace the operator with this string FlipAndReplaceOp(&'static str), // Do not flip the expression DontFlip, } impl From for FlipAction { fn from(op_kind: ast::BinaryOp) -> Self { match op_kind { ast::BinaryOp::Assignment { .. } => FlipAction::DontFlip, ast::BinaryOp::CmpOp(ast::CmpOp::Ord { ordering, strict }) => { let rev_op = match (ordering, strict) { (ast::Ordering::Less, true) => ">", (ast::Ordering::Less, false) => ">=", (ast::Ordering::Greater, true) => "<", (ast::Ordering::Greater, false) => "<=", }; FlipAction::FlipAndReplaceOp(rev_op) } _ => FlipAction::Flip, } } } #[cfg(test)] mod tests { use super::*; use crate::tests::{check_assist, check_assist_not_applicable, check_assist_target}; #[test] fn flip_binexpr_target_is_the_op() { check_assist_target(flip_binexpr, "fn f() { let res = 1 ==$0 2; }", "==") } #[test] fn flip_binexpr_not_applicable_for_assignment() { check_assist_not_applicable(flip_binexpr, "fn f() { let mut _x = 1; _x +=$0 2 }") } #[test] fn flip_binexpr_works_for_eq() { check_assist(flip_binexpr, "fn f() { let res = 1 ==$0 2; }", "fn f() { let res = 2 == 1; }") } #[test] fn flip_binexpr_works_for_gt() { check_assist(flip_binexpr, "fn f() { let res = 1 >$0 2; }", "fn f() { let res = 2 < 1; }") } #[test] fn flip_binexpr_works_for_lteq() { check_assist(flip_binexpr, "fn f() { let res = 1 <=$0 2; }", "fn f() { let res = 2 >= 1; }") } #[test] fn flip_binexpr_works_for_complex_expr() { check_assist( flip_binexpr, "fn f() { let res = (1 + 1) ==$0 (2 + 2); }", "fn f() { let res = (2 + 2) == (1 + 1); }", ) } #[test] fn flip_binexpr_works_inside_match() { check_assist( flip_binexpr, r#" fn dyn_eq(&self, other: &dyn Diagnostic) -> bool { match other.downcast_ref::() { None => false, Some(it) => it ==$0 self, } } "#, r#" fn dyn_eq(&self, other: &dyn Diagnostic) -> bool { match other.downcast_ref::() { None => false, Some(it) => self == it, } } "#, ) } }