// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. /// Formatting of chained expressions, i.e. expressions which are chained by /// dots: struct and enum field access, method calls, and try shorthand (?). /// /// Instead of walking these subexpressions one-by-one, as is our usual strategy /// for expression formatting, we collect maximal sequences of these expressions /// and handle them simultaneously. /// /// Whenever possible, the entire chain is put on a single line. If that fails, /// we put each subexpression on a separate, much like the (default) function /// argument function argument strategy. /// /// Depends on config options: `chain_indent` is the indent to use for /// blocks in the parent/root/base of the chain (and the rest of the chain's /// alignment). /// E.g., `let foo = { aaaa; bbb; ccc }.bar.baz();`, we would layout for the /// following values of `chain_indent`: /// Block: /// ``` /// let foo = { /// aaaa; /// bbb; /// ccc /// }.bar /// .baz(); /// ``` /// Visual: /// ``` /// let foo = { /// aaaa; /// bbb; /// ccc /// } /// .bar /// .baz(); /// ``` /// /// If the first item in the chain is a block expression, we align the dots with /// the braces. /// Block: /// ``` /// let a = foo.bar /// .baz() /// .qux /// ``` /// Visual: /// ``` /// let a = foo.bar /// .baz() /// .qux /// ``` use shape::Shape; use config::IndentStyle; use expr::rewrite_call; use macros::convert_try_mac; use rewrite::{Rewrite, RewriteContext}; use utils::{first_line_width, last_line_extendable, last_line_width, mk_sp, trimmed_last_line_width, wrap_str}; use std::cmp::min; use std::iter; use syntax::{ast, ptr}; use syntax::codemap::Span; pub fn rewrite_chain(expr: &ast::Expr, context: &RewriteContext, shape: Shape) -> Option { debug!("rewrite_chain {:?}", shape); let total_span = expr.span; let (parent, subexpr_list) = make_subexpr_list(expr, context); // Bail out if the chain is just try sugar, i.e., an expression followed by // any number of `?`s. if chain_only_try(&subexpr_list) { return rewrite_try(&parent, subexpr_list.len(), context, shape); } let suffix_try_num = subexpr_list.iter().take_while(|e| is_try(e)).count(); let prefix_try_num = subexpr_list.iter().rev().take_while(|e| is_try(e)).count(); // Parent is the first item in the chain, e.g., `foo` in `foo.bar.baz()`. let parent_shape = if is_block_expr(context, &parent, "\n") { match context.config.chain_indent() { IndentStyle::Visual => shape.visual_indent(0), IndentStyle::Block => shape, } } else { shape }; let parent_rewrite = parent .rewrite(context, parent_shape) .map(|parent_rw| parent_rw + &repeat_try(prefix_try_num))?; let parent_rewrite_contains_newline = parent_rewrite.contains('\n'); let is_small_parent = parent_rewrite.len() <= context.config.tab_spaces(); // Decide how to layout the rest of the chain. `extend` is true if we can // put the first non-parent item on the same line as the parent. let (nested_shape, extend) = if !parent_rewrite_contains_newline && is_continuable(&parent) { ( chain_indent(context, shape.add_offset(parent_rewrite.len())), context.config.chain_indent() == IndentStyle::Visual || is_small_parent, ) } else if is_block_expr(context, &parent, &parent_rewrite) { match context.config.chain_indent() { // Try to put the first child on the same line with parent's last line IndentStyle::Block => (parent_shape.block_indent(context.config.tab_spaces()), true), // The parent is a block, so align the rest of the chain with the closing // brace. IndentStyle::Visual => (parent_shape, false), } } else { ( chain_indent(context, shape.add_offset(parent_rewrite.len())), false, ) }; let other_child_shape = nested_shape.with_max_width(context.config); let first_child_shape = if extend { let overhead = last_line_width(&parent_rewrite); let offset = trimmed_last_line_width(&parent_rewrite); match context.config.chain_indent() { IndentStyle::Visual => parent_shape.offset_left(overhead)?, IndentStyle::Block => parent_shape.block().offset_left(offset)?, } } else { other_child_shape }; debug!( "child_shapes {:?} {:?}", first_child_shape, other_child_shape ); let child_shape_iter = Some(first_child_shape) .into_iter() .chain(iter::repeat(other_child_shape)); let subexpr_num = subexpr_list.len(); let last_subexpr = &subexpr_list[suffix_try_num]; let subexpr_list = &subexpr_list[suffix_try_num..subexpr_num - prefix_try_num]; let iter = subexpr_list.iter().skip(1).rev().zip(child_shape_iter); let mut rewrites = iter.map(|(e, shape)| { rewrite_chain_subexpr(e, total_span, context, shape) }).collect::>>()?; // Total of all items excluding the last. let extend_last_subexr = last_line_extendable(&parent_rewrite) && rewrites.is_empty(); let almost_total = if extend_last_subexr { last_line_width(&parent_rewrite) } else { rewrites.iter().fold(0, |a, b| a + b.len()) + parent_rewrite.len() } + suffix_try_num; let one_line_budget = if rewrites.is_empty() && !context.config.chain_split_single_child() { shape.width } else { min(shape.width, context.config.chain_one_line_max()) }; let all_in_one_line = !parent_rewrite_contains_newline && rewrites.iter().all(|s| !s.contains('\n')) && almost_total < one_line_budget; let last_shape = match context.config.chain_indent() { IndentStyle::Visual => other_child_shape.sub_width(shape.rhs_overhead(context.config))?, IndentStyle::Block => other_child_shape, }; let last_shape = last_shape.sub_width(suffix_try_num)?; // Rewrite the last child. The last child of a chain requires special treatment. We need to // know whether 'overflowing' the last child make a better formatting: // // A chain with overflowing the last child: // ``` // parent.child1.child2.last_child( // a, // b, // c, // ) // ``` // // A chain without overflowing the last child (in vertical layout): // ``` // parent // .child1 // .child2 // .last_child(a, b, c) // ``` // // In particular, overflowing is effective when the last child is a method with a multi-lined // block-like argument (e.g. closure): // ``` // parent.child1.chlid2.last_child(|a, b, c| { // let x = foo(a, b, c); // let y = bar(a, b, c); // // // ... // // result // }) // ``` // `rewrite_last` rewrites the last child on its own line. We use a closure here instead of // directly calling `rewrite_chain_subexpr()` to avoid exponential blowup. let rewrite_last = || rewrite_chain_subexpr(last_subexpr, total_span, context, last_shape); let (last_subexpr_str, fits_single_line) = if all_in_one_line || extend_last_subexr { // First we try to 'overflow' the last child and see if it looks better than using // vertical layout. parent_shape.offset_left(almost_total).map(|shape| { if let Some(rw) = rewrite_chain_subexpr(last_subexpr, total_span, context, shape) { // We allow overflowing here only if both of the following conditions match: // 1. The entire chain fits in a single line expect the last child. // 2. `last_chlid_str.lines().count() >= 5`. let line_count = rw.lines().count(); let fits_single_line = almost_total + first_line_width(&rw) <= one_line_budget; if fits_single_line && line_count >= 5 { (Some(rw), true) } else { // We could not know whether overflowing is better than using vertical layout, // just by looking at the overflowed rewrite. Now we rewrite the last child // on its own line, and compare two rewrites to choose which is better. match rewrite_last() { Some(ref new_rw) if !fits_single_line => (Some(new_rw.clone()), false), Some(ref new_rw) if new_rw.lines().count() >= line_count => { (Some(rw), fits_single_line) } new_rw @ Some(..) => (new_rw, false), _ => (Some(rw), fits_single_line), } } } else { (rewrite_last(), false) } })? } else { (rewrite_last(), false) }; rewrites.push(last_subexpr_str?); let connector = if fits_single_line && !parent_rewrite_contains_newline { // Yay, we can put everything on one line. String::new() } else { // Use new lines. if context.force_one_line_chain { return None; } format!("\n{}", nested_shape.indent.to_string(context.config)) }; let first_connector = if is_small_parent || fits_single_line || last_line_extendable(&parent_rewrite) || context.config.chain_indent() == IndentStyle::Visual { "" } else { connector.as_str() }; let result = if is_small_parent && rewrites.len() > 1 { let second_connector = if fits_single_line || rewrites[1] == "?" || last_line_extendable(&rewrites[0]) || context.config.chain_indent() == IndentStyle::Visual { "" } else { &connector }; format!( "{}{}{}{}{}", parent_rewrite, first_connector, rewrites[0], second_connector, join_rewrites(&rewrites[1..], &connector) ) } else { format!( "{}{}{}", parent_rewrite, first_connector, join_rewrites(&rewrites, &connector) ) }; let result = format!("{}{}", result, repeat_try(suffix_try_num)); if context.config.chain_indent() == IndentStyle::Visual { wrap_str(result, context.config.max_width(), shape) } else { Some(result) } } // True if the chain is only `?`s. fn chain_only_try(exprs: &[ast::Expr]) -> bool { exprs.iter().all(|e| if let ast::ExprKind::Try(_) = e.node { true } else { false }) } // Try to rewrite and replace the last non-try child. Return `true` if // replacing succeeds. fn repeat_try(try_count: usize) -> String { iter::repeat("?").take(try_count).collect::() } fn rewrite_try( expr: &ast::Expr, try_count: usize, context: &RewriteContext, shape: Shape, ) -> Option { let sub_expr = expr.rewrite(context, shape.sub_width(try_count)?)?; Some(format!("{}{}", sub_expr, repeat_try(try_count))) } fn join_rewrites(rewrites: &[String], connector: &str) -> String { let mut rewrite_iter = rewrites.iter(); let mut result = rewrite_iter.next().unwrap().clone(); for rewrite in rewrite_iter { if rewrite != "?" { result.push_str(connector); } result.push_str(&rewrite[..]); } result } // States whether an expression's last line exclusively consists of closing // parens, braces, and brackets in its idiomatic formatting. fn is_block_expr(context: &RewriteContext, expr: &ast::Expr, repr: &str) -> bool { match expr.node { ast::ExprKind::Mac(..) | ast::ExprKind::Call(..) => { context.use_block_indent() && repr.contains('\n') } ast::ExprKind::Struct(..) | ast::ExprKind::While(..) | ast::ExprKind::WhileLet(..) | ast::ExprKind::If(..) | ast::ExprKind::IfLet(..) | ast::ExprKind::Block(..) | ast::ExprKind::Loop(..) | ast::ExprKind::ForLoop(..) | ast::ExprKind::Match(..) => repr.contains('\n'), ast::ExprKind::Paren(ref expr) | ast::ExprKind::Binary(_, _, ref expr) | ast::ExprKind::Index(_, ref expr) | ast::ExprKind::Unary(_, ref expr) => is_block_expr(context, expr, repr), _ => false, } } // Returns the root of the chain and a Vec of the prefixes of the rest of the chain. // E.g., for input `a.b.c` we return (`a`, [`a.b.c`, `a.b`]) fn make_subexpr_list(expr: &ast::Expr, context: &RewriteContext) -> (ast::Expr, Vec) { let mut subexpr_list = vec![expr.clone()]; while let Some(subexpr) = pop_expr_chain(subexpr_list.last().unwrap(), context) { subexpr_list.push(subexpr.clone()); } let parent = subexpr_list.pop().unwrap(); (parent, subexpr_list) } fn chain_indent(context: &RewriteContext, shape: Shape) -> Shape { match context.config.chain_indent() { IndentStyle::Visual => shape.visual_indent(0), IndentStyle::Block => shape .block_indent(context.config.tab_spaces()) .with_max_width(context.config), } } // Returns the expression's subexpression, if it exists. When the subexpr // is a try! macro, we'll convert it to shorthand when the option is set. fn pop_expr_chain(expr: &ast::Expr, context: &RewriteContext) -> Option { match expr.node { ast::ExprKind::MethodCall(_, ref expressions) => { Some(convert_try(&expressions[0], context)) } ast::ExprKind::TupField(ref subexpr, _) | ast::ExprKind::Field(ref subexpr, _) | ast::ExprKind::Try(ref subexpr) => Some(convert_try(subexpr, context)), _ => None, } } fn convert_try(expr: &ast::Expr, context: &RewriteContext) -> ast::Expr { match expr.node { ast::ExprKind::Mac(ref mac) if context.config.use_try_shorthand() => { if let Some(subexpr) = convert_try_mac(mac, context) { subexpr } else { expr.clone() } } _ => expr.clone(), } } // Rewrite the last element in the chain `expr`. E.g., given `a.b.c` we rewrite // `.c`. fn rewrite_chain_subexpr( expr: &ast::Expr, span: Span, context: &RewriteContext, shape: Shape, ) -> Option { let rewrite_element = |expr_str: String| if expr_str.len() <= shape.width { Some(expr_str) } else { None }; match expr.node { ast::ExprKind::MethodCall(ref segment, ref expressions) => { let types = match segment.parameters { Some(ref params) => match **params { ast::PathParameters::AngleBracketed(ref data) => &data.types[..], _ => &[], }, _ => &[], }; rewrite_method_call(segment.identifier, types, expressions, span, context, shape) } ast::ExprKind::Field(_, ref field) => rewrite_element(format!(".{}", field.node)), ast::ExprKind::TupField(ref expr, ref field) => { let space = match expr.node { ast::ExprKind::TupField(..) => " ", _ => "", }; rewrite_element(format!("{}.{}", space, field.node)) } ast::ExprKind::Try(_) => rewrite_element(String::from("?")), _ => unreachable!(), } } // Determines if we can continue formatting a given expression on the same line. fn is_continuable(expr: &ast::Expr) -> bool { match expr.node { ast::ExprKind::Path(..) => true, _ => false, } } fn is_try(expr: &ast::Expr) -> bool { match expr.node { ast::ExprKind::Try(..) => true, _ => false, } } fn rewrite_method_call( method_name: ast::Ident, types: &[ptr::P], args: &[ptr::P], span: Span, context: &RewriteContext, shape: Shape, ) -> Option { let (lo, type_str) = if types.is_empty() { (args[0].span.hi(), String::new()) } else { let type_list = types .iter() .map(|ty| ty.rewrite(context, shape)) .collect::>>()?; let type_str = if context.config.spaces_within_angle_brackets() && !type_list.is_empty() { format!("::< {} >", type_list.join(", ")) } else { format!("::<{}>", type_list.join(", ")) }; (types.last().unwrap().span.hi(), type_str) }; let callee_str = format!(".{}{}", method_name, type_str); let span = mk_sp(lo, span.hi()); rewrite_call(context, &callee_str, &args[1..], span, shape) }