use hir::{known, AsAssocItem, Semantics}; use ide_db::{ helpers::{ for_each_tail_expr, node_ext::{block_as_lone_tail, preorder_expr}, FamousDefs, }, RootDatabase, }; use itertools::Itertools; use syntax::{ ast::{self, edit::AstNodeEdit, make, HasArgList}, ted, AstNode, SyntaxNode, }; use crate::{ utils::{invert_boolean_expression, unwrap_trivial_block}, AssistContext, AssistId, AssistKind, Assists, }; // Assist: convert_if_to_bool_then // // Converts an if expression into a corresponding `bool::then` call. // // ``` // # //- minicore: option // fn main() { // if$0 cond { // Some(val) // } else { // None // } // } // ``` // -> // ``` // fn main() { // cond.then(|| val) // } // ``` pub(crate) fn convert_if_to_bool_then(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { // FIXME applies to match as well let expr = ctx.find_node_at_offset::()?; if !expr.if_token()?.text_range().contains_inclusive(ctx.offset()) { return None; } let cond = expr.condition().filter(|cond| !cond.is_pattern_cond())?; let then = expr.then_branch()?; let else_ = match expr.else_branch()? { ast::ElseBranch::Block(b) => b, ast::ElseBranch::IfExpr(_) => { cov_mark::hit!(convert_if_to_bool_then_chain); return None; } }; let (none_variant, some_variant) = option_variants(&ctx.sema, expr.syntax())?; let (invert_cond, closure_body) = match ( block_is_none_variant(&ctx.sema, &then, none_variant), block_is_none_variant(&ctx.sema, &else_, none_variant), ) { (invert @ true, false) => (invert, ast::Expr::BlockExpr(else_)), (invert @ false, true) => (invert, ast::Expr::BlockExpr(then)), _ => return None, }; if is_invalid_body(&ctx.sema, some_variant, &closure_body) { cov_mark::hit!(convert_if_to_bool_then_pattern_invalid_body); return None; } let target = expr.syntax().text_range(); acc.add( AssistId("convert_if_to_bool_then", AssistKind::RefactorRewrite), "Convert `if` expression to `bool::then` call", target, |builder| { let closure_body = closure_body.clone_for_update(); // Rewrite all `Some(e)` in tail position to `e` let mut replacements = Vec::new(); for_each_tail_expr(&closure_body, &mut |e| { let e = match e { ast::Expr::BreakExpr(e) => e.expr(), e @ ast::Expr::CallExpr(_) => Some(e.clone()), _ => None, }; if let Some(ast::Expr::CallExpr(call)) = e { if let Some(arg_list) = call.arg_list() { if let Some(arg) = arg_list.args().next() { replacements.push((call.syntax().clone(), arg.syntax().clone())); } } } }); replacements.into_iter().for_each(|(old, new)| ted::replace(old, new)); let closure_body = match closure_body { ast::Expr::BlockExpr(block) => unwrap_trivial_block(block), e => e, }; let parenthesize = matches!( cond, ast::Expr::BinExpr(_) | ast::Expr::BlockExpr(_) | ast::Expr::BoxExpr(_) | ast::Expr::BreakExpr(_) | ast::Expr::CastExpr(_) | ast::Expr::ClosureExpr(_) | ast::Expr::ContinueExpr(_) | ast::Expr::ForExpr(_) | ast::Expr::IfExpr(_) | ast::Expr::LoopExpr(_) | ast::Expr::MacroCall(_) | ast::Expr::MatchExpr(_) | ast::Expr::PrefixExpr(_) | ast::Expr::RangeExpr(_) | ast::Expr::RefExpr(_) | ast::Expr::ReturnExpr(_) | ast::Expr::WhileExpr(_) | ast::Expr::YieldExpr(_) ); let cond = if invert_cond { invert_boolean_expression(cond) } else { cond }; let cond = if parenthesize { make::expr_paren(cond) } else { cond }; let arg_list = make::arg_list(Some(make::expr_closure(None, closure_body))); let mcall = make::expr_method_call(cond, make::name_ref("then"), arg_list); builder.replace(target, mcall.to_string()); }, ) } // Assist: convert_bool_then_to_if // // Converts a `bool::then` method call to an equivalent if expression. // // ``` // # //- minicore: bool_impl // fn main() { // (0 == 0).then$0(|| val) // } // ``` // -> // ``` // fn main() { // if 0 == 0 { // Some(val) // } else { // None // } // } // ``` pub(crate) fn convert_bool_then_to_if(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let name_ref = ctx.find_node_at_offset::()?; let mcall = name_ref.syntax().parent().and_then(ast::MethodCallExpr::cast)?; let receiver = mcall.receiver()?; let closure_body = mcall.arg_list()?.args().exactly_one().ok()?; let closure_body = match closure_body { ast::Expr::ClosureExpr(expr) => expr.body()?, _ => return None, }; // Verify this is `bool::then` that is being called. let func = ctx.sema.resolve_method_call(&mcall)?; if func.name(ctx.sema.db).to_string() != "then" { return None; } let assoc = func.as_assoc_item(ctx.sema.db)?; match assoc.container(ctx.sema.db) { hir::AssocItemContainer::Impl(impl_) if impl_.self_ty(ctx.sema.db).is_bool() => {} _ => return None, } let target = mcall.syntax().text_range(); acc.add( AssistId("convert_bool_then_to_if", AssistKind::RefactorRewrite), "Convert `bool::then` call to `if`", target, |builder| { let closure_body = match closure_body { ast::Expr::BlockExpr(block) => block, e => make::block_expr(None, Some(e)), }; let closure_body = closure_body.clone_for_update(); // Wrap all tails in `Some(...)` let none_path = make::expr_path(make::ext::ident_path("None")); let some_path = make::expr_path(make::ext::ident_path("Some")); let mut replacements = Vec::new(); for_each_tail_expr(&ast::Expr::BlockExpr(closure_body.clone()), &mut |e| { let e = match e { ast::Expr::BreakExpr(e) => e.expr(), ast::Expr::ReturnExpr(e) => e.expr(), _ => Some(e.clone()), }; if let Some(expr) = e { replacements.push(( expr.syntax().clone(), make::expr_call(some_path.clone(), make::arg_list(Some(expr))) .syntax() .clone_for_update(), )); } }); replacements.into_iter().for_each(|(old, new)| ted::replace(old, new)); let cond = match &receiver { ast::Expr::ParenExpr(expr) => expr.expr().unwrap_or(receiver), _ => receiver, }; let if_expr = make::expr_if( cond, closure_body.reset_indent(), Some(ast::ElseBranch::Block(make::block_expr(None, Some(none_path)))), ) .indent(mcall.indent_level()); builder.replace(target, if_expr.to_string()); }, ) } fn option_variants( sema: &Semantics, expr: &SyntaxNode, ) -> Option<(hir::Variant, hir::Variant)> { let fam = FamousDefs(sema, sema.scope(expr).krate()); let option_variants = fam.core_option_Option()?.variants(sema.db); match &*option_variants { &[variant0, variant1] => Some(if variant0.name(sema.db) == known::None { (variant0, variant1) } else { (variant1, variant0) }), _ => None, } } /// Traverses the expression checking if it contains `return` or `?` expressions or if any tail is not a `Some(expr)` expression. /// If any of these conditions are met it is impossible to rewrite this as a `bool::then` call. fn is_invalid_body( sema: &Semantics, some_variant: hir::Variant, expr: &ast::Expr, ) -> bool { let mut invalid = false; preorder_expr(expr, &mut |e| { invalid |= matches!(e, syntax::WalkEvent::Enter(ast::Expr::TryExpr(_) | ast::Expr::ReturnExpr(_))); invalid }); if !invalid { for_each_tail_expr(expr, &mut |e| { if invalid { return; } let e = match e { ast::Expr::BreakExpr(e) => e.expr(), e @ ast::Expr::CallExpr(_) => Some(e.clone()), _ => None, }; if let Some(ast::Expr::CallExpr(call)) = e { if let Some(ast::Expr::PathExpr(p)) = call.expr() { let res = p.path().and_then(|p| sema.resolve_path(&p)); if let Some(hir::PathResolution::Def(hir::ModuleDef::Variant(v))) = res { return invalid |= v != some_variant; } } } invalid = true }); } invalid } fn block_is_none_variant( sema: &Semantics, block: &ast::BlockExpr, none_variant: hir::Variant, ) -> bool { block_as_lone_tail(block).and_then(|e| match e { ast::Expr::PathExpr(pat) => match sema.resolve_path(&pat.path()?)? { hir::PathResolution::Def(hir::ModuleDef::Variant(v)) => Some(v), _ => None, }, _ => None, }) == Some(none_variant) } #[cfg(test)] mod tests { use crate::tests::{check_assist, check_assist_not_applicable}; use super::*; #[test] fn convert_if_to_bool_then_simple() { check_assist( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { Some(15) } else { None } } ", r" fn main() { true.then(|| 15) } ", ); } #[test] fn convert_if_to_bool_then_invert() { check_assist( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { None } else { Some(15) } } ", r" fn main() { false.then(|| 15) } ", ); } #[test] fn convert_if_to_bool_then_none_none() { check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { None } else { None } } ", ); } #[test] fn convert_if_to_bool_then_some_some() { check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { Some(15) } else { Some(15) } } ", ); } #[test] fn convert_if_to_bool_then_mixed() { check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { if true { Some(15) } else { None } } else { None } } ", ); } #[test] fn convert_if_to_bool_then_chain() { cov_mark::check!(convert_if_to_bool_then_chain); check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { Some(15) } else if true { None } else { None } } ", ); } #[test] fn convert_if_to_bool_then_pattern_cond() { check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 let true = true { Some(15) } else { None } } ", ); } #[test] fn convert_if_to_bool_then_pattern_invalid_body() { cov_mark::check_count!(convert_if_to_bool_then_pattern_invalid_body, 2); check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn make_me_an_option() -> Option { None } fn main() { if$0 true { if true { make_me_an_option() } else { Some(15) } } else { None } } ", ); check_assist_not_applicable( convert_if_to_bool_then, r" //- minicore:option fn main() { if$0 true { if true { return; } Some(15) } else { None } } ", ); } #[test] fn convert_bool_then_to_if_inapplicable() { check_assist_not_applicable( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { 0.t$0hen(|| 15); } ", ); check_assist_not_applicable( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { true.t$0hen(15); } ", ); check_assist_not_applicable( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { true.t$0hen(|| 15, 15); } ", ); } #[test] fn convert_bool_then_to_if_simple() { check_assist( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { true.t$0hen(|| 15) } ", r" fn main() { if true { Some(15) } else { None } } ", ); check_assist( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { true.t$0hen(|| { 15 }) } ", r" fn main() { if true { Some(15) } else { None } } ", ); } #[test] fn convert_bool_then_to_if_tails() { check_assist( convert_bool_then_to_if, r" //- minicore:bool_impl fn main() { true.t$0hen(|| { loop { if false { break 0; } break 15; } }) } ", r" fn main() { if true { loop { if false { break Some(0); } break Some(15); } } else { None } } ", ); } }