use hir::db::HirDatabase; use ra_syntax::ast::{AstNode, BinExpr, BinOp}; use crate::{AssistCtx, Assist, AssistId}; /// Flip binary comparison expressions (==, !=, >, >=, <, <=). pub(crate) fn flip_binexpr(mut ctx: AssistCtx) -> Option { let expr = ctx.node_at_offset::()?; let lhs = expr.lhs()?.syntax(); let rhs = expr.rhs()?.syntax(); let op_range = expr.op()?.range(); // The assist should be available only if the cursor is on the operator let cursor_in_range = ctx.frange.range.is_subrange(&op_range); // The assist should be available only for these binary operators // (it should not change the meaning of the expression) let allowed_ops = [ BinOp::EqualityTest, BinOp::NegatedEqualityTest, BinOp::GreaterTest, BinOp::GreaterEqualTest, BinOp::LesserTest, BinOp::LesserEqualTest, ]; let op_kind = expr.op_kind()?; if !cursor_in_range || !allowed_ops.iter().any(|o| *o == op_kind) { return None; } let new_op = match op_kind { BinOp::GreaterTest => Some("<"), BinOp::GreaterEqualTest => Some("<="), BinOp::LesserTest => Some(">"), BinOp::LesserEqualTest => Some(">="), _ => None, }; ctx.add_action(AssistId("flip_binexpr"), "flip binary expression", |edit| { edit.target(op_range); if let Some(new_op) = new_op { edit.replace(op_range, new_op); } edit.replace(lhs.range(), rhs.text()); edit.replace(rhs.range(), lhs.text()); }); ctx.build() } #[cfg(test)] mod tests { use super::*; use crate::helpers::{check_assist, check_assist_target}; #[test] fn flip_eq_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 ==<|> 2; }", "fn f() { let res = 2 ==<|> 1; }", ) } #[test] fn flip_neq_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 !=<|> 2; }", "fn f() { let res = 2 !=<|> 1; }", ) } #[test] fn flip_gt_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 ><|> 2; }", "fn f() { let res = 2 <<|> 1; }", ) } #[test] fn flip_gteq_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 >=<|> 2; }", "fn f() { let res = 2 <=<|> 1; }", ) } #[test] fn flip_lt_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 <<|> 2; }", "fn f() { let res = 2 ><|> 1; }", ) } #[test] fn flip_lteq_operands_for_simple_stmt() { check_assist( flip_binexpr, "fn f() { let res = 1 <=<|> 2; }", "fn f() { let res = 2 >=<|> 1; }", ) } #[test] fn flip_eq_operands_for_complex_stmt() { check_assist( flip_binexpr, "fn f() { let res = (1 + 1) ==<|> (2 + 2); }", "fn f() { let res = (2 + 2) ==<|> (1 + 1); }", ) } #[test] fn flip_eq_operands_in_match_expr() { check_assist( flip_binexpr, r#" fn dyn_eq(&self, other: &dyn Diagnostic) -> bool { match other.downcast_ref::() { None => false, Some(it) => it ==<|> self, } } "#, r#" fn dyn_eq(&self, other: &dyn Diagnostic) -> bool { match other.downcast_ref::() { None => false, Some(it) => self ==<|> it, } } "#, ) } #[test] fn flip_eq_operands_target() { check_assist_target(flip_binexpr, "fn f() { let res = 1 ==<|> 2; }", "==") } #[test] fn flip_gt_operands_target() { check_assist_target(flip_binexpr, "fn f() { let res = 1 ><|> 2; }", ">") } }