use syntax::{
- ast::{self, edit::AstNodeEdit, make},
- AstNode,
+ ast::{self, make},
+ ted, AstNode,
};
use crate::{
// ```
pub(crate) fn pull_assignment_up(acc: &mut Assists, ctx: &AssistContext) -> Option<()> {
let assign_expr = ctx.find_node_at_offset::<ast::BinExpr>()?;
- let name_expr = if assign_expr.op_kind()? == ast::BinOp::Assignment {
- assign_expr.lhs()?
- } else {
+
+ let op_kind = assign_expr.op_kind()?;
+ if op_kind != (ast::BinaryOp::Assignment { op: None }) {
+ cov_mark::hit!(test_cant_pull_non_assignments);
return None;
+ }
+
+ let mut collector = AssignmentsCollector {
+ sema: &ctx.sema,
+ common_lhs: assign_expr.lhs()?,
+ assignments: Vec::new(),
};
- let (old_stmt, new_stmt) = if let Some(if_expr) = ctx.find_node_at_offset::<ast::IfExpr>() {
- (
- ast::Expr::cast(if_expr.syntax().to_owned())?,
- exprify_if(&if_expr, &ctx.sema, &name_expr)?.indent(if_expr.indent_level()),
- )
+ let tgt: ast::Expr = if let Some(if_expr) = ctx.find_node_at_offset::<ast::IfExpr>() {
+ collector.collect_if(&if_expr)?;
+ if_expr.into()
} else if let Some(match_expr) = ctx.find_node_at_offset::<ast::MatchExpr>() {
- (
- ast::Expr::cast(match_expr.syntax().to_owned())?,
- exprify_match(&match_expr, &ctx.sema, &name_expr)?,
- )
+ collector.collect_match(&match_expr)?;
+ match_expr.into()
} else {
return None;
};
- let expr_stmt = make::expr_stmt(new_stmt);
+ if let Some(parent) = tgt.syntax().parent() {
+ if matches!(parent.kind(), syntax::SyntaxKind::BIN_EXPR | syntax::SyntaxKind::LET_STMT) {
+ return None;
+ }
+ }
acc.add(
AssistId("pull_assignment_up", AssistKind::RefactorExtract),
"Pull assignment up",
- old_stmt.syntax().text_range(),
+ tgt.syntax().text_range(),
move |edit| {
- edit.replace(old_stmt.syntax().text_range(), format!("{} = {};", name_expr, expr_stmt));
+ let assignments: Vec<_> = collector
+ .assignments
+ .into_iter()
+ .map(|(stmt, rhs)| (edit.make_mut(stmt), rhs.clone_for_update()))
+ .collect();
+
+ let tgt = edit.make_mut(tgt);
+
+ for (stmt, rhs) in assignments {
+ let mut stmt = stmt.syntax().clone();
+ if let Some(parent) = stmt.parent() {
+ if ast::ExprStmt::cast(parent.clone()).is_some() {
+ stmt = parent.clone();
+ }
+ }
+ ted::replace(stmt, rhs.syntax());
+ }
+ let assign_expr = make::expr_assignment(collector.common_lhs, tgt.clone());
+ let assign_stmt = make::expr_stmt(assign_expr);
+
+ ted::replace(tgt.syntax(), assign_stmt.syntax().clone_for_update());
},
)
}
-fn exprify_match(
- match_expr: &ast::MatchExpr,
- sema: &hir::Semantics<ide_db::RootDatabase>,
- name: &ast::Expr,
-) -> Option<ast::Expr> {
- let new_arm_list = match_expr
- .match_arm_list()?
- .arms()
- .map(|arm| {
- if let ast::Expr::BlockExpr(block) = arm.expr()? {
- let new_block = exprify_block(&block, sema, name)?.indent(block.indent_level());
- Some(arm.replace_descendant(block, new_block))
- } else {
- None
- }
- })
- .collect::<Option<Vec<_>>>()?;
- let new_arm_list = match_expr
- .match_arm_list()?
- .replace_descendants(match_expr.match_arm_list()?.arms().zip(new_arm_list));
- Some(make::expr_match(match_expr.expr()?, new_arm_list))
+struct AssignmentsCollector<'a> {
+ sema: &'a hir::Semantics<'a, ide_db::RootDatabase>,
+ common_lhs: ast::Expr,
+ assignments: Vec<(ast::BinExpr, ast::Expr)>,
}
-fn exprify_if(
- statement: &ast::IfExpr,
- sema: &hir::Semantics<ide_db::RootDatabase>,
- name: &ast::Expr,
-) -> Option<ast::Expr> {
- let then_branch = exprify_block(&statement.then_branch()?, sema, name)?;
- let else_branch = match statement.else_branch()? {
- ast::ElseBranch::Block(ref block) => {
- ast::ElseBranch::Block(exprify_block(block, sema, name)?)
- }
- ast::ElseBranch::IfExpr(expr) => {
- cov_mark::hit!(test_pull_assignment_up_chained_if);
- ast::ElseBranch::IfExpr(ast::IfExpr::cast(
- exprify_if(&expr, sema, name)?.syntax().to_owned(),
- )?)
+impl<'a> AssignmentsCollector<'a> {
+ fn collect_match(&mut self, match_expr: &ast::MatchExpr) -> Option<()> {
+ for arm in match_expr.match_arm_list()?.arms() {
+ match arm.expr()? {
+ ast::Expr::BlockExpr(block) => self.collect_block(&block)?,
+ ast::Expr::BinExpr(expr) => self.collect_expr(&expr)?,
+ _ => return None,
+ }
}
- };
- Some(make::expr_if(statement.condition()?, then_branch, Some(else_branch)))
-}
-fn exprify_block(
- block: &ast::BlockExpr,
- sema: &hir::Semantics<ide_db::RootDatabase>,
- name: &ast::Expr,
-) -> Option<ast::BlockExpr> {
- if block.tail_expr().is_some() {
- return None;
+ Some(())
}
+ fn collect_if(&mut self, if_expr: &ast::IfExpr) -> Option<()> {
+ let then_branch = if_expr.then_branch()?;
+ self.collect_block(&then_branch)?;
+
+ match if_expr.else_branch()? {
+ ast::ElseBranch::Block(block) => self.collect_block(&block),
+ ast::ElseBranch::IfExpr(expr) => {
+ cov_mark::hit!(test_pull_assignment_up_chained_if);
+ self.collect_if(&expr)
+ }
+ }
+ }
+ fn collect_block(&mut self, block: &ast::BlockExpr) -> Option<()> {
+ let last_expr = block.tail_expr().or_else(|| match block.statements().last()? {
+ ast::Stmt::ExprStmt(stmt) => stmt.expr(),
+ ast::Stmt::Item(_) | ast::Stmt::LetStmt(_) => None,
+ })?;
+
+ if let ast::Expr::BinExpr(expr) = last_expr {
+ return self.collect_expr(&expr);
+ }
- let mut stmts: Vec<_> = block.statements().collect();
- let stmt = stmts.pop()?;
+ None
+ }
- if let ast::Stmt::ExprStmt(stmt) = stmt {
- if let ast::Expr::BinExpr(expr) = stmt.expr()? {
- if expr.op_kind()? == ast::BinOp::Assignment && is_equivalent(sema, &expr.lhs()?, name)
- {
- // The last statement in the block is an assignment to the name we want
- return Some(make::block_expr(stmts, Some(expr.rhs()?)));
- }
+ fn collect_expr(&mut self, expr: &ast::BinExpr) -> Option<()> {
+ if expr.op_kind()? == (ast::BinaryOp::Assignment { op: None })
+ && is_equivalent(self.sema, &expr.lhs()?, &self.common_lhs)
+ {
+ self.assignments.push((expr.clone(), expr.rhs()?));
+ return Some(());
}
+ None
}
- None
}
fn is_equivalent(
}
}
(ast::Expr::PrefixExpr(prefix0), ast::Expr::PrefixExpr(prefix1))
- if prefix0.op_kind() == Some(ast::PrefixOp::Deref)
- && prefix1.op_kind() == Some(ast::PrefixOp::Deref) =>
+ if prefix0.op_kind() == Some(ast::UnaryOp::Deref)
+ && prefix1.op_kind() == Some(ast::UnaryOp::Deref) =>
{
cov_mark::hit!(test_pull_assignment_up_deref);
if let (Some(prefix0), Some(prefix1)) = (prefix0.expr(), prefix1.expr()) {
);
}
+ #[test]
+ fn test_pull_assignment_up_assignment_expressions() {
+ check_assist(
+ pull_assignment_up,
+ r#"
+fn foo() {
+ let mut a = 1;
+
+ match 1 {
+ 1 => { $0a = 2; },
+ 2 => a = 3,
+ 3 => {
+ a = 4
+ }
+ }
+}"#,
+ r#"
+fn foo() {
+ let mut a = 1;
+
+ a = match 1 {
+ 1 => { 2 },
+ 2 => 3,
+ 3 => {
+ 4
+ }
+ };
+}"#,
+ );
+ }
+
#[test]
fn test_pull_assignment_up_not_last_not_applicable() {
check_assist_not_applicable(
3
};
}
+"#,
+ )
+ }
+
+ #[test]
+ fn test_cant_pull_non_assignments() {
+ cov_mark::check!(test_cant_pull_non_assignments);
+ check_assist_not_applicable(
+ pull_assignment_up,
+ r#"
+fn foo() {
+ let mut a = 1;
+ let b = &mut a;
+
+ if true {
+ $0*b + 2;
+ } else {
+ *b + 3;
+ }
+}
"#,
)
}