1 // Copyright 2015 The Rust Project Developers. See the COPYRIGHT
2 // file at the top-level directory of this distribution and at
3 // http://rust-lang.org/COPYRIGHT.
5 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
6 // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
7 // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
8 // option. This file may not be copied, modified, or distributed
9 // except according to those terms.
11 use std::cmp::{min, Ordering};
13 use std::iter::ExactSizeIterator;
15 use syntax::{ast, ptr};
16 use syntax::codemap::{BytePos, CodeMap, Span};
17 use syntax::parse::classify;
19 use {Indent, Shape, Spanned};
20 use chains::rewrite_chain;
21 use codemap::{LineRangeUtils, SpanUtils};
22 use comment::{contains_comment, recover_comment_removed, rewrite_comment, FindUncommented};
23 use config::{Config, ControlBraceStyle, IndentStyle, MultilineStyle, Style};
24 use items::{span_hi_for_arg, span_lo_for_arg};
25 use lists::{definitive_tactic, itemize_list, shape_for_tactic, struct_lit_formatting,
26 struct_lit_shape, struct_lit_tactic, write_list, DefinitiveListTactic, ListFormatting,
27 ListItem, ListTactic, Separator, SeparatorTactic};
28 use macros::{rewrite_macro, MacroPosition};
29 use patterns::{can_be_overflowed_pat, TuplePatField};
30 use rewrite::{Rewrite, RewriteContext};
31 use string::{rewrite_string, StringFormat};
32 use types::{can_be_overflowed_type, rewrite_path, PathContext};
33 use utils::{binary_search, colon_spaces, contains_skip, extra_offset, first_line_width,
34 inner_attributes, last_line_extendable, last_line_width, left_most_sub_expr, mk_sp,
35 outer_attributes, paren_overhead, semicolon_for_stmt, stmt_expr,
36 trimmed_last_line_width, wrap_str};
37 use vertical::rewrite_with_alignment;
38 use visitor::FmtVisitor;
40 impl Rewrite for ast::Expr {
41 fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option<String> {
42 format_expr(self, ExprType::SubExpression, context, shape)
52 fn combine_attr_and_expr(
53 context: &RewriteContext,
58 let attrs = outer_attributes(&expr.attrs);
59 let attr_str = try_opt!(attrs.rewrite(context, shape));
60 let separator = if attr_str.is_empty() {
63 // Try to recover comments between the attributes and the expression if available.
64 let missing_snippet = context.snippet(mk_sp(attrs[attrs.len() - 1].span.hi, expr.span.lo));
65 let comment_opening_pos = missing_snippet.chars().position(|c| c == '/');
66 let prefer_same_line = if let Some(pos) = comment_opening_pos {
67 !missing_snippet[..pos].contains('\n')
69 !missing_snippet.contains('\n')
72 let trimmed = missing_snippet.trim();
73 let missing_comment = if trimmed.is_empty() {
76 try_opt!(rewrite_comment(&trimmed, false, shape, context.config))
81 attr_str.len() + missing_comment.len() + 2 + first_line_width(expr_str);
82 let attr_expr_separator = if prefer_same_line && !missing_comment.starts_with("//") &&
83 one_line_width <= shape.width
87 format!("\n{}", shape.indent.to_string(context.config))
90 if missing_comment.is_empty() {
95 last_line_width(&attr_str) + 1 + first_line_width(&missing_comment);
96 let attr_comment_separator = if prefer_same_line && one_line_width <= shape.width {
99 format!("\n{}", shape.indent.to_string(context.config))
101 attr_comment_separator + &missing_comment + &attr_expr_separator
104 Some(format!("{}{}{}", attr_str, separator, expr_str))
110 context: &RewriteContext,
112 ) -> Option<String> {
113 skip_out_of_file_lines_range!(context, expr.span);
115 if contains_skip(&*expr.attrs) {
116 return Some(context.snippet(expr.span()));
119 let expr_rw = match expr.node {
120 ast::ExprKind::Array(ref expr_vec) => rewrite_array(
121 expr_vec.iter().map(|e| &**e),
122 mk_sp(context.codemap.span_after(expr.span, "["), expr.span.hi),
127 ast::ExprKind::Lit(ref l) => match l.node {
128 ast::LitKind::Str(_, ast::StrStyle::Cooked) => {
129 rewrite_string_lit(context, l.span, shape)
132 context.snippet(expr.span),
133 context.config.max_width(),
137 ast::ExprKind::Call(ref callee, ref args) => {
138 let inner_span = mk_sp(callee.span.hi, expr.span.hi);
139 rewrite_call_with_binary_search(
142 &args.iter().map(|x| &**x).collect::<Vec<_>>()[..],
147 ast::ExprKind::Paren(ref subexpr) => rewrite_paren(context, subexpr, shape),
148 ast::ExprKind::Binary(ref op, ref lhs, ref rhs) => {
149 // FIXME: format comments between operands and operator
154 &format!(" {} ", context.snippet(op.span)),
160 ast::ExprKind::Unary(ref op, ref subexpr) => rewrite_unary_op(context, op, subexpr, shape),
161 ast::ExprKind::Struct(ref path, ref fields, ref base) => rewrite_struct_lit(
165 base.as_ref().map(|e| &**e),
169 ast::ExprKind::Tup(ref items) => rewrite_tuple(
171 &items.iter().map(|x| &**x).collect::<Vec<_>>()[..],
175 ast::ExprKind::If(..) |
176 ast::ExprKind::IfLet(..) |
177 ast::ExprKind::ForLoop(..) |
178 ast::ExprKind::Loop(..) |
179 ast::ExprKind::While(..) |
180 ast::ExprKind::WhileLet(..) => to_control_flow(expr, expr_type)
181 .and_then(|control_flow| control_flow.rewrite(context, shape)),
182 ast::ExprKind::Block(ref block) => {
184 ExprType::Statement => {
185 if is_unsafe_block(block) {
186 block.rewrite(context, shape)
188 // Rewrite block without trying to put it in a single line.
189 if let rw @ Some(_) = rewrite_empty_block(context, block, shape) {
192 let prefix = try_opt!(block_prefix(context, block, shape));
193 rewrite_block_with_visitor(context, &prefix, block, shape)
196 ExprType::SubExpression => block.rewrite(context, shape),
199 ast::ExprKind::Match(ref cond, ref arms) => {
200 rewrite_match(context, cond, arms, shape, expr.span, &expr.attrs)
202 ast::ExprKind::Path(ref qself, ref path) => {
203 rewrite_path(context, PathContext::Expr, qself.as_ref(), path, shape)
205 ast::ExprKind::Assign(ref lhs, ref rhs) => {
206 rewrite_assignment(context, lhs, rhs, None, shape)
208 ast::ExprKind::AssignOp(ref op, ref lhs, ref rhs) => {
209 rewrite_assignment(context, lhs, rhs, Some(op), shape)
211 ast::ExprKind::Continue(ref opt_ident) => {
212 let id_str = match *opt_ident {
213 Some(ident) => format!(" {}", ident.node),
214 None => String::new(),
217 format!("continue{}", id_str),
218 context.config.max_width(),
222 ast::ExprKind::Break(ref opt_ident, ref opt_expr) => {
223 let id_str = match *opt_ident {
224 Some(ident) => format!(" {}", ident.node),
225 None => String::new(),
228 if let Some(ref expr) = *opt_expr {
229 rewrite_unary_prefix(context, &format!("break{} ", id_str), &**expr, shape)
232 format!("break{}", id_str),
233 context.config.max_width(),
238 ast::ExprKind::Closure(capture, ref fn_decl, ref body, _) => {
239 rewrite_closure(capture, fn_decl, body, expr.span, context, shape)
241 ast::ExprKind::Try(..) |
242 ast::ExprKind::Field(..) |
243 ast::ExprKind::TupField(..) |
244 ast::ExprKind::MethodCall(..) => rewrite_chain(expr, context, shape),
245 ast::ExprKind::Mac(ref mac) => {
246 // Failure to rewrite a marco should not imply failure to
247 // rewrite the expression.
248 rewrite_macro(mac, None, context, shape, MacroPosition::Expression).or_else(|| {
250 context.snippet(expr.span),
251 context.config.max_width(),
256 ast::ExprKind::Ret(None) => {
257 wrap_str("return".to_owned(), context.config.max_width(), shape)
259 ast::ExprKind::Ret(Some(ref expr)) => {
260 rewrite_unary_prefix(context, "return ", &**expr, shape)
262 ast::ExprKind::Box(ref expr) => rewrite_unary_prefix(context, "box ", &**expr, shape),
263 ast::ExprKind::AddrOf(mutability, ref expr) => {
264 rewrite_expr_addrof(context, mutability, expr, shape)
266 ast::ExprKind::Cast(ref expr, ref ty) => {
267 rewrite_pair(&**expr, &**ty, "", " as ", "", context, shape)
269 ast::ExprKind::Type(ref expr, ref ty) => {
270 rewrite_pair(&**expr, &**ty, "", ": ", "", context, shape)
272 ast::ExprKind::Index(ref expr, ref index) => {
273 rewrite_index(&**expr, &**index, context, shape)
275 ast::ExprKind::Repeat(ref expr, ref repeats) => {
276 let (lbr, rbr) = if context.config.spaces_within_square_brackets() {
281 rewrite_pair(&**expr, &**repeats, lbr, "; ", rbr, context, shape)
283 ast::ExprKind::Range(ref lhs, ref rhs, limits) => {
284 let delim = match limits {
285 ast::RangeLimits::HalfOpen => "..",
286 ast::RangeLimits::Closed => "...",
289 fn needs_space_before_range(context: &RewriteContext, lhs: &ast::Expr) -> bool {
291 ast::ExprKind::Lit(ref lit) => match lit.node {
292 ast::LitKind::FloatUnsuffixed(..) => {
293 context.snippet(lit.span).ends_with('.')
301 match (lhs.as_ref().map(|x| &**x), rhs.as_ref().map(|x| &**x)) {
302 (Some(ref lhs), Some(ref rhs)) => {
303 let sp_delim = if context.config.spaces_around_ranges() {
304 format!(" {} ", delim)
305 } else if needs_space_before_range(context, lhs) {
306 format!(" {}", delim)
310 rewrite_pair(&**lhs, &**rhs, "", &sp_delim, "", context, shape)
312 (None, Some(ref rhs)) => {
313 let sp_delim = if context.config.spaces_around_ranges() {
314 format!("{} ", delim)
318 rewrite_unary_prefix(context, &sp_delim, &**rhs, shape)
320 (Some(ref lhs), None) => {
321 let sp_delim = if context.config.spaces_around_ranges() {
322 format!(" {}", delim)
326 rewrite_unary_suffix(context, &sp_delim, &**lhs, shape)
328 (None, None) => wrap_str(delim.into(), context.config.max_width(), shape),
331 // We do not format these expressions yet, but they should still
332 // satisfy our width restrictions.
333 ast::ExprKind::InPlace(..) | ast::ExprKind::InlineAsm(..) => wrap_str(
334 context.snippet(expr.span),
335 context.config.max_width(),
338 ast::ExprKind::Catch(ref block) => {
339 if let rewrite @ Some(_) = rewrite_single_line_block(context, "do catch ", block, shape)
344 let budget = shape.width.checked_sub(9).unwrap_or(0);
348 try_opt!(block.rewrite(&context, Shape::legacy(budget, shape.indent)))
354 .and_then(|expr_str| {
355 recover_comment_removed(expr_str, expr.span, context, shape)
357 .and_then(|expr_str| {
358 combine_attr_and_expr(context, shape, expr, &expr_str)
362 pub fn rewrite_pair<LHS, RHS>(
368 context: &RewriteContext,
375 let sep = if infix.ends_with(' ') { " " } else { "" };
376 let infix = infix.trim_right();
377 let lhs_overhead = shape.used_width() + prefix.len() + infix.len();
378 let lhs_shape = Shape {
379 width: try_opt!(context.config.max_width().checked_sub(lhs_overhead)),
382 let lhs_result = try_opt!(
383 lhs.rewrite(context, lhs_shape)
384 .map(|lhs_str| format!("{}{}{}", prefix, lhs_str, infix))
387 // Try to the both lhs and rhs on the same line.
388 let rhs_orig_result = shape
389 .offset_left(last_line_width(&lhs_result) + suffix.len() + sep.len())
390 .and_then(|rhs_shape| rhs.rewrite(context, rhs_shape));
391 if let Some(ref rhs_result) = rhs_orig_result {
392 // If the rhs looks like block expression, we allow it to stay on the same line
393 // with the lhs even if it is multi-lined.
394 let allow_same_line = rhs_result
397 .map(|first_line| first_line.ends_with('{'))
399 if !rhs_result.contains('\n') || allow_same_line {
400 return Some(format!("{}{}{}{}", lhs_result, sep, rhs_result, suffix));
404 // We have to use multiple lines.
405 // Re-evaluate the rhs because we have more space now:
406 let rhs_shape = match context.config.control_style() {
408 try_opt!(shape.sub_width(suffix.len() + prefix.len())).visual_indent(prefix.len())
411 // Try to calculate the initial constraint on the right hand side.
412 let rhs_overhead = shape.rhs_overhead(context.config);
414 Shape::indented(shape.indent.block_indent(context.config), context.config)
415 .sub_width(rhs_overhead)
419 let rhs_result = try_opt!(rhs.rewrite(context, rhs_shape));
423 rhs_shape.indent.to_string(context.config),
429 pub fn rewrite_array<'a, I>(
432 context: &RewriteContext,
434 trailing_comma: bool,
437 I: Iterator<Item = &'a ast::Expr>,
439 let bracket_size = if context.config.spaces_within_square_brackets() {
445 let mut nested_shape = match context.config.array_layout() {
446 IndentStyle::Block => try_opt!(
449 .block_indent(context.config.tab_spaces())
450 .with_max_width(context.config)
453 IndentStyle::Visual => try_opt!(
455 .visual_indent(bracket_size)
456 .sub_width(bracket_size * 2)
460 let items = itemize_list(
466 |item| item.rewrite(context, nested_shape),
470 ).collect::<Vec<_>>();
472 if items.is_empty() {
473 if context.config.spaces_within_square_brackets() {
474 return Some("[ ]".to_string());
476 return Some("[]".to_string());
480 let has_long_item = items
482 .any(|li| li.item.as_ref().map(|s| s.len() > 10).unwrap_or(false));
484 let mut tactic = match context.config.array_layout() {
485 IndentStyle::Block => {
486 // FIXME wrong shape in one-line case
487 match shape.width.checked_sub(2 * bracket_size) {
490 ListTactic::LimitedHorizontalVertical(context.config.array_width());
491 definitive_tactic(&items, tactic, Separator::Comma, width)
493 None => DefinitiveListTactic::Vertical,
496 IndentStyle::Visual => if has_long_item || items.iter().any(ListItem::is_multiline) {
499 ListTactic::LimitedHorizontalVertical(context.config.array_width()),
504 DefinitiveListTactic::Mixed
507 let mut ends_with_newline = tactic.ends_with_newline(context.config.array_layout());
508 if context.config.array_horizontal_layout_threshold() > 0 &&
509 items.len() > context.config.array_horizontal_layout_threshold()
511 tactic = DefinitiveListTactic::Mixed;
512 ends_with_newline = false;
513 if context.config.array_layout() == IndentStyle::Block {
514 nested_shape = try_opt!(
516 .visual_indent(bracket_size)
517 .sub_width(bracket_size * 2)
522 let fmt = ListFormatting {
525 trailing_separator: if trailing_comma {
526 SeparatorTactic::Always
527 } else if context.inside_macro || context.config.array_layout() == IndentStyle::Visual {
528 SeparatorTactic::Never
530 SeparatorTactic::Vertical
533 ends_with_newline: ends_with_newline,
534 preserve_newline: false,
535 config: context.config,
537 let list_str = try_opt!(write_list(&items, &fmt));
539 let result = if context.config.array_layout() == IndentStyle::Visual ||
540 tactic != DefinitiveListTactic::Vertical
542 if context.config.spaces_within_square_brackets() && list_str.len() > 0 {
543 format!("[ {} ]", list_str)
545 format!("[{}]", list_str)
550 nested_shape.indent.to_string(context.config),
552 shape.block().indent.to_string(context.config)
559 // Return type is (prefix, extra_offset)
560 fn rewrite_closure_fn_decl(
561 capture: ast::CaptureBy,
562 fn_decl: &ast::FnDecl,
565 context: &RewriteContext,
567 ) -> Option<(String, usize)> {
568 let mover = if capture == ast::CaptureBy::Value {
573 // 4 = "|| {".len(), which is overconservative when the closure consists of
574 // a single expression.
575 let nested_shape = try_opt!(try_opt!(shape.shrink_left(mover.len())).sub_width(4));
578 let argument_offset = nested_shape.indent + 1;
579 let arg_shape = try_opt!(nested_shape.offset_left(1)).visual_indent(0);
580 let ret_str = try_opt!(fn_decl.output.rewrite(context, arg_shape));
582 let arg_items = itemize_list(
584 fn_decl.inputs.iter(),
586 |arg| span_lo_for_arg(arg),
587 |arg| span_hi_for_arg(context, arg),
588 |arg| arg.rewrite(context, arg_shape),
589 context.codemap.span_after(span, "|"),
593 let item_vec = arg_items.collect::<Vec<_>>();
594 // 1 = space between arguments and return type.
595 let horizontal_budget = nested_shape
597 .checked_sub(ret_str.len() + 1)
599 let tactic = definitive_tactic(
601 ListTactic::HorizontalVertical,
605 let arg_shape = match tactic {
606 DefinitiveListTactic::Horizontal => try_opt!(arg_shape.sub_width(ret_str.len() + 1)),
610 let fmt = ListFormatting {
613 trailing_separator: SeparatorTactic::Never,
615 ends_with_newline: false,
616 preserve_newline: true,
617 config: context.config,
619 let list_str = try_opt!(write_list(&item_vec, &fmt));
620 let mut prefix = format!("{}|{}|", mover, list_str);
621 // 1 = space between `|...|` and body.
622 let extra_offset = extra_offset(&prefix, shape) + 1;
624 if !ret_str.is_empty() {
625 if prefix.contains('\n') {
627 prefix.push_str(&argument_offset.to_string(context.config));
631 prefix.push_str(&ret_str);
634 Some((prefix, extra_offset))
637 // This functions is pretty messy because of the rules around closures and blocks:
638 // FIXME - the below is probably no longer true in full.
639 // * if there is a return type, then there must be braces,
640 // * given a closure with braces, whether that is parsed to give an inner block
641 // or not depends on if there is a return type and if there are statements
643 // * if the first expression in the body ends with a block (i.e., is a
644 // statement without needing a semi-colon), then adding or removing braces
645 // can change whether it is treated as an expression or statement.
647 capture: ast::CaptureBy,
648 fn_decl: &ast::FnDecl,
651 context: &RewriteContext,
653 ) -> Option<String> {
654 let (prefix, extra_offset) = try_opt!(rewrite_closure_fn_decl(
662 // 1 = space between `|...|` and body.
663 let body_shape = try_opt!(shape.offset_left(extra_offset));
665 if let ast::ExprKind::Block(ref block) = body.node {
666 // The body of the closure is an empty block.
667 if block.stmts.is_empty() && !block_contains_comment(block, context.codemap) {
668 return Some(format!("{} {{}}", prefix));
671 // Figure out if the block is necessary.
672 let needs_block = block.rules != ast::BlockCheckMode::Default || block.stmts.len() > 1 ||
673 context.inside_macro ||
674 block_contains_comment(block, context.codemap) ||
675 prefix.contains('\n');
677 let no_return_type = if let ast::FunctionRetTy::Default(_) = fn_decl.output {
682 if no_return_type && !needs_block {
683 // lock.stmts.len() == 1
684 if let Some(ref expr) = stmt_expr(&block.stmts[0]) {
685 if let Some(rw) = rewrite_closure_expr(expr, &prefix, context, body_shape) {
692 // We need braces, but we might still prefer a one-liner.
693 let stmt = &block.stmts[0];
694 // 4 = braces and spaces.
695 if let Some(body_shape) = body_shape.sub_width(4) {
696 // Checks if rewrite succeeded and fits on a single line.
697 if let Some(rewrite) = and_one_line(stmt.rewrite(context, body_shape)) {
698 return Some(format!("{} {{ {} }}", prefix, rewrite));
703 // Either we require a block, or tried without and failed.
704 rewrite_closure_block(&block, &prefix, context, body_shape)
706 rewrite_closure_expr(body, &prefix, context, body_shape).or_else(|| {
707 // The closure originally had a non-block expression, but we can't fit on
708 // one line, so we'll insert a block.
709 rewrite_closure_with_block(context, body_shape, &prefix, body)
714 // Rewrite closure with a single expression wrapping its body with block.
715 fn rewrite_closure_with_block(
716 context: &RewriteContext,
720 ) -> Option<String> {
721 let block = ast::Block {
724 id: ast::NodeId::new(0),
725 node: ast::StmtKind::Expr(ptr::P(body.clone())),
729 id: ast::NodeId::new(0),
730 rules: ast::BlockCheckMode::Default,
733 rewrite_closure_block(&block, prefix, context, shape)
736 // Rewrite closure with a single expression without wrapping its body with block.
737 fn rewrite_closure_expr(
740 context: &RewriteContext,
742 ) -> Option<String> {
743 let mut rewrite = expr.rewrite(context, shape);
744 if classify::expr_requires_semi_to_be_stmt(left_most_sub_expr(expr)) {
745 rewrite = and_one_line(rewrite);
747 rewrite.map(|rw| format!("{} {}", prefix, rw))
750 // Rewrite closure whose body is block.
751 fn rewrite_closure_block(
754 context: &RewriteContext,
756 ) -> Option<String> {
757 // Start with visual indent, then fall back to block indent if the
759 let block_threshold = context.config.closure_block_indent_threshold();
760 if block_threshold >= 0 {
761 if let Some(block_str) = block.rewrite(&context, shape) {
762 if block_str.matches('\n').count() <= block_threshold as usize &&
763 !need_block_indent(&block_str, shape)
765 if let Some(block_str) = block_str.rewrite(context, shape) {
766 return Some(format!("{} {}", prefix, block_str));
772 // The body of the closure is big enough to be block indented, that
773 // means we must re-format.
774 let block_shape = shape.block();
775 let block_str = try_opt!(block.rewrite(&context, block_shape));
776 Some(format!("{} {}", prefix, block_str))
779 fn and_one_line(x: Option<String>) -> Option<String> {
780 x.and_then(|x| if x.contains('\n') { None } else { Some(x) })
783 fn nop_block_collapse(block_str: Option<String>, budget: usize) -> Option<String> {
784 debug!("nop_block_collapse {:?} {}", block_str, budget);
785 block_str.map(|block_str| {
786 if block_str.starts_with('{') && budget >= 2 &&
787 (block_str[1..].find(|c: char| !c.is_whitespace()).unwrap() == block_str.len() - 2)
796 fn rewrite_empty_block(
797 context: &RewriteContext,
800 ) -> Option<String> {
801 if block.stmts.is_empty() && !block_contains_comment(block, context.codemap) && shape.width >= 2
803 return Some("{}".to_owned());
806 // If a block contains only a single-line comment, then leave it on one line.
807 let user_str = context.snippet(block.span);
808 let user_str = user_str.trim();
809 if user_str.starts_with('{') && user_str.ends_with('}') {
810 let comment_str = user_str[1..user_str.len() - 1].trim();
811 if block.stmts.is_empty() && !comment_str.contains('\n') &&
812 !comment_str.starts_with("//") && comment_str.len() + 4 <= shape.width
814 return Some(format!("{{ {} }}", comment_str));
821 fn block_prefix(context: &RewriteContext, block: &ast::Block, shape: Shape) -> Option<String> {
822 Some(match block.rules {
823 ast::BlockCheckMode::Unsafe(..) => {
824 let snippet = context.snippet(block.span);
825 let open_pos = try_opt!(snippet.find_uncommented("{"));
826 // Extract comment between unsafe and block start.
827 let trimmed = &snippet[6..open_pos].trim();
829 if !trimmed.is_empty() {
830 // 9 = "unsafe {".len(), 7 = "unsafe ".len()
831 let budget = try_opt!(shape.width.checked_sub(9));
834 try_opt!(rewrite_comment(
837 Shape::legacy(budget, shape.indent + 7),
845 ast::BlockCheckMode::Default => String::new(),
849 fn rewrite_single_line_block(
850 context: &RewriteContext,
854 ) -> Option<String> {
855 if is_simple_block(block, context.codemap) {
856 let expr_shape = Shape::legacy(shape.width - prefix.len(), shape.indent);
857 let expr_str = try_opt!(block.stmts[0].rewrite(context, expr_shape));
858 let result = format!("{}{{ {} }}", prefix, expr_str);
859 if result.len() <= shape.width && !result.contains('\n') {
866 fn rewrite_block_with_visitor(
867 context: &RewriteContext,
871 ) -> Option<String> {
872 if let rw @ Some(_) = rewrite_empty_block(context, block, shape) {
876 let mut visitor = FmtVisitor::from_codemap(context.parse_session, context.config);
877 visitor.block_indent = shape.indent;
878 visitor.is_if_else_block = context.is_if_else_block;
880 ast::BlockCheckMode::Unsafe(..) => {
881 let snippet = context.snippet(block.span);
882 let open_pos = try_opt!(snippet.find_uncommented("{"));
883 visitor.last_pos = block.span.lo + BytePos(open_pos as u32)
885 ast::BlockCheckMode::Default => visitor.last_pos = block.span.lo,
888 visitor.visit_block(block, None);
889 Some(format!("{}{}", prefix, visitor.buffer))
892 impl Rewrite for ast::Block {
893 fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option<String> {
894 // shape.width is used only for the single line case: either the empty block `{}`,
895 // or an unsafe expression `unsafe { e }`.
896 if let rw @ Some(_) = rewrite_empty_block(context, self, shape) {
900 let prefix = try_opt!(block_prefix(context, self, shape));
901 if let rw @ Some(_) = rewrite_single_line_block(context, &prefix, self, shape) {
905 rewrite_block_with_visitor(context, &prefix, self, shape)
909 impl Rewrite for ast::Stmt {
910 fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option<String> {
911 skip_out_of_file_lines_range!(context, self.span());
913 let result = match self.node {
914 ast::StmtKind::Local(ref local) => local.rewrite(context, shape),
915 ast::StmtKind::Expr(ref ex) | ast::StmtKind::Semi(ref ex) => {
916 let suffix = if semicolon_for_stmt(context, self) {
925 ast::StmtKind::Expr(_) => ExprType::SubExpression,
926 ast::StmtKind::Semi(_) => ExprType::Statement,
930 try_opt!(shape.sub_width(suffix.len())),
931 ).map(|s| s + suffix)
933 ast::StmtKind::Mac(..) | ast::StmtKind::Item(..) => None,
935 result.and_then(|res| {
936 recover_comment_removed(res, self.span(), context, shape)
941 // Rewrite condition if the given expression has one.
942 fn rewrite_cond(context: &RewriteContext, expr: &ast::Expr, shape: Shape) -> Option<String> {
944 ast::ExprKind::Match(ref cond, _) => {
946 let cond_shape = match context.config.control_style() {
947 Style::Legacy => try_opt!(shape.shrink_left(6).and_then(|s| s.sub_width(2))),
948 Style::Rfc => try_opt!(shape.offset_left(8)),
950 cond.rewrite(context, cond_shape)
952 ast::ExprKind::Block(ref block) if block.stmts.len() == 1 => {
953 stmt_expr(&block.stmts[0]).and_then(|e| rewrite_cond(context, e, shape))
955 _ => to_control_flow(expr, ExprType::SubExpression).and_then(|control_flow| {
957 String::from("\n") + &shape.indent.block_only().to_string(context.config);
959 .rewrite_cond(context, shape, &alt_block_sep)
960 .and_then(|rw| Some(rw.0))
965 // Abstraction over control flow expressions
967 struct ControlFlow<'a> {
968 cond: Option<&'a ast::Expr>,
969 block: &'a ast::Block,
970 else_block: Option<&'a ast::Expr>,
971 label: Option<ast::SpannedIdent>,
972 pat: Option<&'a ast::Pat>,
976 allow_single_line: bool,
977 // True if this is an `if` expression in an `else if` :-( hacky
982 fn to_control_flow<'a>(expr: &'a ast::Expr, expr_type: ExprType) -> Option<ControlFlow<'a>> {
984 ast::ExprKind::If(ref cond, ref if_block, ref else_block) => Some(ControlFlow::new_if(
988 else_block.as_ref().map(|e| &**e),
989 expr_type == ExprType::SubExpression,
993 ast::ExprKind::IfLet(ref pat, ref cond, ref if_block, ref else_block) => {
994 Some(ControlFlow::new_if(
998 else_block.as_ref().map(|e| &**e),
999 expr_type == ExprType::SubExpression,
1004 ast::ExprKind::ForLoop(ref pat, ref cond, ref block, label) => {
1005 Some(ControlFlow::new_for(pat, cond, block, label, expr.span))
1007 ast::ExprKind::Loop(ref block, label) => {
1008 Some(ControlFlow::new_loop(block, label, expr.span))
1010 ast::ExprKind::While(ref cond, ref block, label) => {
1011 Some(ControlFlow::new_while(None, cond, block, label, expr.span))
1013 ast::ExprKind::WhileLet(ref pat, ref cond, ref block, label) => Some(
1014 ControlFlow::new_while(Some(pat), cond, block, label, expr.span),
1020 impl<'a> ControlFlow<'a> {
1022 cond: &'a ast::Expr,
1023 pat: Option<&'a ast::Pat>,
1024 block: &'a ast::Block,
1025 else_block: Option<&'a ast::Expr>,
1026 allow_single_line: bool,
1029 ) -> ControlFlow<'a> {
1033 else_block: else_block,
1037 matcher: match pat {
1042 allow_single_line: allow_single_line,
1043 nested_if: nested_if,
1049 block: &'a ast::Block,
1050 label: Option<ast::SpannedIdent>,
1052 ) -> ControlFlow<'a> {
1062 allow_single_line: false,
1069 pat: Option<&'a ast::Pat>,
1070 cond: &'a ast::Expr,
1071 block: &'a ast::Block,
1072 label: Option<ast::SpannedIdent>,
1074 ) -> ControlFlow<'a> {
1082 matcher: match pat {
1087 allow_single_line: false,
1095 cond: &'a ast::Expr,
1096 block: &'a ast::Block,
1097 label: Option<ast::SpannedIdent>,
1099 ) -> ControlFlow<'a> {
1109 allow_single_line: false,
1115 fn rewrite_single_line(
1118 context: &RewriteContext,
1120 ) -> Option<String> {
1121 assert!(self.allow_single_line);
1122 let else_block = try_opt!(self.else_block);
1123 let fixed_cost = self.keyword.len() + " { } else { }".len();
1125 if let ast::ExprKind::Block(ref else_node) = else_block.node {
1126 if !is_simple_block(self.block, context.codemap) ||
1127 !is_simple_block(else_node, context.codemap) ||
1128 pat_expr_str.contains('\n')
1133 let new_width = try_opt!(width.checked_sub(pat_expr_str.len() + fixed_cost));
1134 let expr = &self.block.stmts[0];
1135 let if_str = try_opt!(expr.rewrite(context, Shape::legacy(new_width, Indent::empty())));
1137 let new_width = try_opt!(new_width.checked_sub(if_str.len()));
1138 let else_expr = &else_node.stmts[0];
1140 try_opt!(else_expr.rewrite(context, Shape::legacy(new_width, Indent::empty())));
1142 if if_str.contains('\n') || else_str.contains('\n') {
1146 let result = format!(
1147 "{} {} {{ {} }} else {{ {} }}",
1154 if result.len() <= width {
1155 return Some(result);
1163 impl<'a> ControlFlow<'a> {
1166 context: &RewriteContext,
1168 alt_block_sep: &str,
1169 ) -> Option<(String, usize)> {
1170 // Do not take the rhs overhead from the upper expressions into account
1171 // when rewriting pattern.
1172 let new_width = context
1175 .checked_sub(shape.used_width())
1177 let fresh_shape = Shape {
1181 let constr_shape = if self.nested_if {
1182 // We are part of an if-elseif-else chain. Our constraints are tightened.
1183 // 7 = "} else " .len()
1184 try_opt!(fresh_shape.offset_left(7))
1189 let label_string = rewrite_label(self.label);
1190 // 1 = space after keyword.
1191 let offset = self.keyword.len() + label_string.len() + 1;
1193 let pat_expr_string = match self.cond {
1195 let cond_shape = match context.config.control_style() {
1196 Style::Legacy => try_opt!(constr_shape.shrink_left(offset)),
1197 Style::Rfc => try_opt!(constr_shape.offset_left(offset)),
1199 try_opt!(rewrite_pat_expr(
1209 None => String::new(),
1212 let brace_overhead =
1213 if context.config.control_brace_style() != ControlBraceStyle::AlwaysNextLine {
1219 let one_line_budget = context
1222 .checked_sub(constr_shape.used_width() + offset + brace_overhead)
1224 let force_newline_brace = context.config.control_style() == Style::Rfc &&
1225 (pat_expr_string.contains('\n') || pat_expr_string.len() > one_line_budget) &&
1226 !last_line_extendable(&pat_expr_string);
1228 // Try to format if-else on single line.
1229 if self.allow_single_line && context.config.single_line_if_else_max_width() > 0 {
1230 let trial = self.rewrite_single_line(&pat_expr_string, context, shape.width);
1232 if let Some(cond_str) = trial {
1233 if cond_str.len() <= context.config.single_line_if_else_max_width() {
1234 return Some((cond_str, 0));
1239 let cond_span = if let Some(cond) = self.cond {
1242 mk_sp(self.block.span.lo, self.block.span.lo)
1245 // for event in event
1246 let between_kwd_cond = mk_sp(
1247 context.codemap.span_after(self.span, self.keyword.trim()),
1249 .map_or(cond_span.lo, |p| if self.matcher.is_empty() {
1252 context.codemap.span_before(self.span, self.matcher.trim())
1256 let between_kwd_cond_comment = extract_comment(between_kwd_cond, context, shape);
1258 let after_cond_comment =
1259 extract_comment(mk_sp(cond_span.hi, self.block.span.lo), context, shape);
1261 let block_sep = if self.cond.is_none() && between_kwd_cond_comment.is_some() {
1263 } else if context.config.control_brace_style() == ControlBraceStyle::AlwaysNextLine ||
1271 let used_width = if pat_expr_string.contains('\n') {
1272 last_line_width(&pat_expr_string)
1274 // 2 = spaces after keyword and condition.
1275 label_string.len() + self.keyword.len() + pat_expr_string.len() + 2
1283 between_kwd_cond_comment.as_ref().map_or(
1284 if pat_expr_string.is_empty() || pat_expr_string.starts_with('\n') {
1292 after_cond_comment.as_ref().map_or(block_sep, |s| &**s)
1299 impl<'a> Rewrite for ControlFlow<'a> {
1300 fn rewrite(&self, context: &RewriteContext, shape: Shape) -> Option<String> {
1301 debug!("ControlFlow::rewrite {:?} {:?}", self, shape);
1304 String::from("\n") + &shape.indent.block_only().to_string(context.config);
1305 let (cond_str, used_width) = try_opt!(self.rewrite_cond(context, shape, &alt_block_sep));
1306 // If `used_width` is 0, it indicates that whole control flow is written in a single line.
1307 if used_width == 0 {
1308 return Some(cond_str);
1311 let block_width = shape.width.checked_sub(used_width).unwrap_or(0);
1312 // This is used only for the empty block case: `{}`. So, we use 1 if we know
1313 // we should avoid the single line case.
1314 let block_width = if self.else_block.is_some() || self.nested_if {
1319 let block_shape = Shape {
1323 let mut block_context = context.clone();
1324 block_context.is_if_else_block = self.else_block.is_some();
1325 let block_str = try_opt!(rewrite_block_with_visitor(
1332 let mut result = format!("{}{}", cond_str, block_str);
1334 if let Some(else_block) = self.else_block {
1335 let shape = Shape::indented(shape.indent, context.config);
1336 let mut last_in_chain = false;
1337 let rewrite = match else_block.node {
1338 // If the else expression is another if-else expression, prevent it
1339 // from being formatted on a single line.
1340 // Note how we're passing the original shape, as the
1341 // cost of "else" should not cascade.
1342 ast::ExprKind::IfLet(ref pat, ref cond, ref if_block, ref next_else_block) => {
1343 ControlFlow::new_if(
1347 next_else_block.as_ref().map(|e| &**e),
1350 mk_sp(else_block.span.lo, self.span.hi),
1351 ).rewrite(context, shape)
1353 ast::ExprKind::If(ref cond, ref if_block, ref next_else_block) => {
1354 ControlFlow::new_if(
1358 next_else_block.as_ref().map(|e| &**e),
1361 mk_sp(else_block.span.lo, self.span.hi),
1362 ).rewrite(context, shape)
1365 last_in_chain = true;
1366 // When rewriting a block, the width is only used for single line
1367 // blocks, passing 1 lets us avoid that.
1368 let else_shape = Shape {
1369 width: min(1, shape.width),
1372 format_expr(else_block, ExprType::Statement, context, else_shape)
1376 let between_kwd_else_block = mk_sp(
1380 .span_before(mk_sp(self.block.span.hi, else_block.span.lo), "else"),
1382 let between_kwd_else_block_comment =
1383 extract_comment(between_kwd_else_block, context, shape);
1385 let after_else = mk_sp(
1388 .span_after(mk_sp(self.block.span.hi, else_block.span.lo), "else"),
1391 let after_else_comment = extract_comment(after_else, context, shape);
1393 let between_sep = match context.config.control_brace_style() {
1394 ControlBraceStyle::AlwaysNextLine | ControlBraceStyle::ClosingNextLine => {
1397 ControlBraceStyle::AlwaysSameLine => " ",
1399 let after_sep = match context.config.control_brace_style() {
1400 ControlBraceStyle::AlwaysNextLine if last_in_chain => &*alt_block_sep,
1407 between_kwd_else_block_comment
1409 .map_or(between_sep, |s| &**s),
1410 after_else_comment.as_ref().map_or(after_sep, |s| &**s)
1413 result.push_str(&try_opt!(rewrite));
1420 fn rewrite_label(label: Option<ast::SpannedIdent>) -> String {
1422 Some(ident) => format!("{}: ", ident.node),
1423 None => "".to_owned(),
1427 fn extract_comment(span: Span, context: &RewriteContext, shape: Shape) -> Option<String> {
1428 let comment_str = context.snippet(span);
1429 if contains_comment(&comment_str) {
1430 let comment = try_opt!(rewrite_comment(
1437 "\n{indent}{}\n{indent}",
1439 indent = shape.indent.to_string(context.config)
1446 fn block_contains_comment(block: &ast::Block, codemap: &CodeMap) -> bool {
1447 let snippet = codemap.span_to_snippet(block.span).unwrap();
1448 contains_comment(&snippet)
1451 // Checks that a block contains no statements, an expression and no comments.
1452 // FIXME: incorrectly returns false when comment is contained completely within
1454 pub fn is_simple_block(block: &ast::Block, codemap: &CodeMap) -> bool {
1455 (block.stmts.len() == 1 && stmt_is_expr(&block.stmts[0]) &&
1456 !block_contains_comment(block, codemap))
1459 /// Checks whether a block contains at most one statement or expression, and no comments.
1460 pub fn is_simple_block_stmt(block: &ast::Block, codemap: &CodeMap) -> bool {
1461 block.stmts.len() <= 1 && !block_contains_comment(block, codemap)
1464 /// Checks whether a block contains no statements, expressions, or comments.
1465 pub fn is_empty_block(block: &ast::Block, codemap: &CodeMap) -> bool {
1466 block.stmts.is_empty() && !block_contains_comment(block, codemap)
1469 pub fn stmt_is_expr(stmt: &ast::Stmt) -> bool {
1471 ast::StmtKind::Expr(..) => true,
1476 fn is_unsafe_block(block: &ast::Block) -> bool {
1477 if let ast::BlockCheckMode::Unsafe(..) = block.rules {
1484 // inter-match-arm-comment-rules:
1485 // - all comments following a match arm before the start of the next arm
1486 // are about the second arm
1487 fn rewrite_match_arm_comment(
1488 context: &RewriteContext,
1491 arm_indent_str: &str,
1492 ) -> Option<String> {
1493 // The leading "," is not part of the arm-comment
1494 let missed_str = match missed_str.find_uncommented(",") {
1495 Some(n) => &missed_str[n + 1..],
1496 None => &missed_str[..],
1499 let mut result = String::new();
1500 // any text not preceeded by a newline is pushed unmodified to the block
1501 let first_brk = missed_str.find(|c: char| c == '\n').unwrap_or(0);
1502 result.push_str(&missed_str[..first_brk]);
1503 let missed_str = &missed_str[first_brk..]; // If missed_str had one newline, it starts with it
1505 let first = missed_str
1506 .find(|c: char| !c.is_whitespace())
1507 .unwrap_or(missed_str.len());
1508 if missed_str[..first].chars().filter(|c| c == &'\n').count() >= 2 {
1509 // Excessive vertical whitespace before comment should be preserved
1510 // FIXME handle vertical whitespace better
1513 let missed_str = missed_str[first..].trim();
1514 if !missed_str.is_empty() {
1515 let comment = try_opt!(rewrite_comment(&missed_str, false, shape, context.config));
1517 result.push_str(arm_indent_str);
1518 result.push_str(&comment);
1525 context: &RewriteContext,
1530 attrs: &[ast::Attribute],
1531 ) -> Option<String> {
1532 if arms.is_empty() {
1536 // Do not take the rhs overhead from the upper expressions into account
1537 // when rewriting match condition.
1538 let new_width = try_opt!(context.config.max_width().checked_sub(shape.used_width()));
1539 let cond_shape = Shape {
1544 let cond_shape = match context.config.control_style() {
1545 Style::Legacy => try_opt!(cond_shape.shrink_left(6)),
1546 Style::Rfc => try_opt!(cond_shape.offset_left(6)),
1548 let cond_str = try_opt!(cond.rewrite(context, cond_shape));
1549 let alt_block_sep = String::from("\n") + &shape.indent.block_only().to_string(context.config);
1550 let block_sep = match context.config.control_brace_style() {
1551 ControlBraceStyle::AlwaysNextLine => &alt_block_sep,
1552 _ if last_line_extendable(&cond_str) => " ",
1554 _ if cond_str.contains('\n') || cond_str.len() + 2 > cond_shape.width => &alt_block_sep,
1558 let nested_indent_str = shape
1560 .block_indent(context.config)
1561 .to_string(context.config);
1562 // Inner attributes.
1563 let inner_attrs = &inner_attributes(attrs);
1564 let inner_attrs_str = if inner_attrs.is_empty() {
1569 .rewrite(context, shape)
1570 .map(|s| format!("\n{}{}", nested_indent_str, s))
1574 let open_brace_pos = if inner_attrs.is_empty() {
1577 .span_after(mk_sp(cond.span.hi, arms[0].span().lo), "{")
1579 inner_attrs[inner_attrs.len() - 1].span().hi
1583 "match {}{}{{{}{}\n{}}}",
1587 try_opt!(rewrite_match_arms(
1594 shape.indent.to_string(context.config),
1598 fn arm_comma(config: &Config, body: &ast::Expr) -> &'static str {
1599 if config.match_block_trailing_comma() {
1601 } else if let ast::ExprKind::Block(ref block) = body.node {
1602 if let ast::BlockCheckMode::Default = block.rules {
1612 fn rewrite_match_arms(
1613 context: &RewriteContext,
1617 open_brace_pos: BytePos,
1618 ) -> Option<String> {
1619 let mut result = String::new();
1621 let arm_shape = if context.config.indent_match_arms() {
1622 shape.block_indent(context.config.tab_spaces())
1624 shape.block_indent(0)
1625 }.with_max_width(context.config);
1626 let arm_indent_str = arm_shape.indent.to_string(context.config);
1628 let arm_num = arms.len();
1629 for (i, arm) in arms.iter().enumerate() {
1630 // Make sure we get the stuff between arms.
1631 let missed_str = if i == 0 {
1632 context.snippet(mk_sp(open_brace_pos, arm.span().lo))
1634 context.snippet(mk_sp(arms[i - 1].span().hi, arm.span().lo))
1636 let comment = try_opt!(rewrite_match_arm_comment(
1642 if !comment.chars().all(|c| c == ' ') {
1643 result.push_str(&comment);
1646 result.push_str(&arm_indent_str);
1648 let arm_str = rewrite_match_arm(context, arm, arm_shape);
1649 if let Some(ref arm_str) = arm_str {
1650 // Trim the trailing comma if necessary.
1651 if i == arm_num - 1 && context.config.trailing_comma() == SeparatorTactic::Never &&
1652 arm_str.ends_with(',')
1654 result.push_str(&arm_str[0..arm_str.len() - 1])
1656 result.push_str(arm_str)
1659 // We couldn't format the arm, just reproduce the source.
1660 let snippet = context.snippet(arm.span());
1661 result.push_str(&snippet);
1662 if context.config.trailing_comma() != SeparatorTactic::Never {
1663 result.push_str(arm_comma(context.config, &arm.body))
1667 // BytePos(1) = closing match brace.
1668 let last_span = mk_sp(arms[arms.len() - 1].span().hi, span.hi - BytePos(1));
1669 let last_comment = context.snippet(last_span);
1670 let comment = try_opt!(rewrite_match_arm_comment(
1676 result.push_str(&comment);
1681 fn rewrite_match_arm(context: &RewriteContext, arm: &ast::Arm, shape: Shape) -> Option<String> {
1682 let attr_str = if !arm.attrs.is_empty() {
1683 if contains_skip(&arm.attrs) {
1688 try_opt!(arm.attrs.rewrite(context, shape)),
1689 shape.indent.to_string(context.config)
1694 let pats_str = try_opt!(rewrite_match_pattern(context, &arm.pats, &arm.guard, shape));
1695 let pats_str = attr_str + &pats_str;
1696 rewrite_match_body(context, &arm.body, &pats_str, shape, arm.guard.is_some())
1699 fn rewrite_match_pattern(
1700 context: &RewriteContext,
1701 pats: &Vec<ptr::P<ast::Pat>>,
1702 guard: &Option<ptr::P<ast::Expr>>,
1704 ) -> Option<String> {
1707 let pat_shape = try_opt!(shape.sub_width(5));
1709 let pat_strs = try_opt!(
1711 .map(|p| p.rewrite(context, pat_shape))
1712 .collect::<Option<Vec<_>>>()
1715 let items: Vec<_> = pat_strs.into_iter().map(ListItem::from_str).collect();
1716 let tactic = definitive_tactic(
1718 ListTactic::HorizontalVertical,
1719 Separator::VerticalBar,
1722 let fmt = ListFormatting {
1725 trailing_separator: SeparatorTactic::Never,
1727 ends_with_newline: false,
1728 preserve_newline: false,
1729 config: context.config,
1731 let pats_str = try_opt!(write_list(&items, &fmt));
1734 let guard_str = try_opt!(rewrite_guard(
1738 trimmed_last_line_width(&pats_str),
1741 Some(format!("{}{}", pats_str, guard_str))
1744 fn rewrite_match_body(
1745 context: &RewriteContext,
1746 body: &ptr::P<ast::Expr>,
1750 ) -> Option<String> {
1751 let (extend, body) = match body.node {
1752 ast::ExprKind::Block(ref block)
1753 if !is_unsafe_block(block) && is_simple_block(block, context.codemap) =>
1755 if let ast::StmtKind::Expr(ref expr) = block.stmts[0].node {
1756 (expr.can_be_overflowed(context, 1), &**expr)
1761 _ => (body.can_be_overflowed(context, 1), &**body),
1764 let comma = arm_comma(&context.config, body);
1765 let alt_block_sep = String::from("\n") + &shape.indent.block_only().to_string(context.config);
1766 let alt_block_sep = alt_block_sep.as_str();
1767 let (is_block, is_empty_block) = if let ast::ExprKind::Block(ref block) = body.node {
1768 (true, is_empty_block(block, context.codemap))
1773 let combine_orig_body = |body_str: &str| {
1774 let block_sep = match context.config.control_brace_style() {
1775 ControlBraceStyle::AlwaysNextLine if is_block => alt_block_sep,
1779 Some(format!("{} =>{}{}{}", pats_str, block_sep, body_str, comma))
1782 let forbid_same_line = has_guard && pats_str.contains('\n') && !is_empty_block;
1783 let next_line_indent = if is_block {
1786 shape.indent.block_indent(context.config)
1788 let combine_next_line_body = |body_str: &str| {
1790 return Some(format!(
1793 next_line_indent.to_string(context.config),
1798 let indent_str = shape.indent.to_string(context.config);
1799 let nested_indent_str = next_line_indent.to_string(context.config);
1800 let (body_prefix, body_suffix) = if context.config.wrap_match_arms() {
1801 let comma = if context.config.match_block_trailing_comma() {
1806 ("{", format!("\n{}}}{}", indent_str, comma))
1808 ("", String::from(","))
1811 let block_sep = match context.config.control_brace_style() {
1812 ControlBraceStyle::AlwaysNextLine => format!("{}{}\n", alt_block_sep, body_prefix),
1813 _ if body_prefix.is_empty() => "\n".to_owned(),
1814 _ if forbid_same_line => format!("{}{}\n", alt_block_sep, body_prefix),
1815 _ => format!(" {}\n", body_prefix),
1816 } + &nested_indent_str;
1827 // Let's try and get the arm body on the same line as the condition.
1829 let orig_body_shape = shape
1830 .offset_left(extra_offset(&pats_str, shape) + 4)
1831 .and_then(|shape| shape.sub_width(comma.len()));
1832 let orig_body = if let Some(body_shape) = orig_body_shape {
1833 let rewrite = nop_block_collapse(
1834 format_expr(body, ExprType::Statement, context, body_shape),
1840 if !forbid_same_line &&
1842 (!body_str.contains('\n') && body_str.len() <= body_shape.width)) =>
1844 return combine_orig_body(body_str);
1851 let orig_budget = orig_body_shape.map_or(0, |shape| shape.width);
1853 // Try putting body on the next line and see if it looks better.
1854 let next_line_body_shape = Shape::indented(next_line_indent, context.config);
1855 let next_line_body = nop_block_collapse(
1856 format_expr(body, ExprType::Statement, context, next_line_body_shape),
1857 next_line_body_shape.width,
1859 match (orig_body, next_line_body) {
1860 (Some(ref orig_str), Some(ref next_line_str))
1861 if forbid_same_line || prefer_next_line(orig_str, next_line_str) =>
1863 combine_next_line_body(next_line_str)
1865 (Some(ref orig_str), _) if extend && first_line_width(orig_str) <= orig_budget => {
1866 combine_orig_body(orig_str)
1868 (Some(ref orig_str), Some(ref next_line_str)) if orig_str.contains('\n') => {
1869 combine_next_line_body(next_line_str)
1871 (None, Some(ref next_line_str)) => combine_next_line_body(next_line_str),
1872 (None, None) => None,
1873 (Some(ref orig_str), _) => combine_orig_body(orig_str),
1877 // The `if ...` guard on a match arm.
1879 context: &RewriteContext,
1880 guard: &Option<ptr::P<ast::Expr>>,
1882 // The amount of space used up on this line for the pattern in
1883 // the arm (excludes offset).
1884 pattern_width: usize,
1885 ) -> Option<String> {
1886 if let Some(ref guard) = *guard {
1887 // First try to fit the guard string on the same line as the pattern.
1888 // 4 = ` if `, 5 = ` => {`
1889 let cond_shape = shape
1890 .offset_left(pattern_width + 4)
1891 .and_then(|s| s.sub_width(5));
1892 if let Some(cond_shape) = cond_shape {
1893 if let Some(cond_str) = guard.rewrite(context, cond_shape) {
1894 if !cond_str.contains('\n') || pattern_width <= context.config.tab_spaces() {
1895 return Some(format!(" if {}", cond_str));
1900 // Not enough space to put the guard after the pattern, try a newline.
1901 // 3 = `if `, 5 = ` => {`
1902 let cond_shape = Shape::indented(shape.indent.block_indent(context.config), context.config)
1904 .and_then(|s| s.sub_width(5));
1905 if let Some(cond_shape) = cond_shape {
1906 if let Some(cond_str) = guard.rewrite(context, cond_shape) {
1907 return Some(format!(
1909 cond_shape.indent.to_string(context.config),
1921 fn rewrite_pat_expr(
1922 context: &RewriteContext,
1923 pat: Option<&ast::Pat>,
1926 // Connecting piece between pattern and expression,
1927 // *without* trailing space.
1931 ) -> Option<String> {
1932 debug!("rewrite_pat_expr {:?} {:?} {:?}", shape, pat, expr);
1933 if let Some(pat) = pat {
1934 let matcher = if matcher.is_empty() {
1937 format!("{} ", matcher)
1940 try_opt!(try_opt!(shape.offset_left(matcher.len())).sub_width(connector.len()));
1941 let pat_string = try_opt!(pat.rewrite(context, pat_shape));
1942 let result = format!("{}{}{}", matcher, pat_string, connector);
1943 return rewrite_assign_rhs(context, result, expr, shape);
1946 let expr_rw = expr.rewrite(context, shape);
1947 // The expression may (partially) fit on the current line.
1948 // We do not allow splitting between `if` and condition.
1949 if keyword == "if" || expr_rw.is_some() {
1953 // The expression won't fit on the current line, jump to next.
1954 let nested_shape = shape
1955 .block_indent(context.config.tab_spaces())
1956 .with_max_width(context.config);
1957 let nested_indent_str = nested_shape.indent.to_string(context.config);
1958 expr.rewrite(context, nested_shape)
1959 .map(|expr_rw| format!("\n{}{}", nested_indent_str, expr_rw))
1962 fn rewrite_string_lit(context: &RewriteContext, span: Span, shape: Shape) -> Option<String> {
1963 let string_lit = context.snippet(span);
1965 if !context.config.format_strings() && !context.config.force_format_strings() {
1970 .all(|line| line.ends_with('\\'))
1972 let new_indent = shape.visual_indent(1).indent;
1973 return Some(String::from(
1977 new_indent.to_string(context.config) + line.trim_left()
1979 .collect::<Vec<_>>()
1984 return Some(string_lit);
1988 if !context.config.force_format_strings() &&
1989 !string_requires_rewrite(context, span, &string_lit, shape)
1991 return Some(string_lit);
1994 let fmt = StringFormat {
2001 config: context.config,
2004 // Remove the quote characters.
2005 let str_lit = &string_lit[1..string_lit.len() - 1];
2007 rewrite_string(str_lit, &fmt)
2010 fn string_requires_rewrite(
2011 context: &RewriteContext,
2016 if context.codemap.lookup_char_pos(span.lo).col.0 != shape.indent.width() {
2020 for (i, line) in string.lines().enumerate() {
2022 if line.len() > shape.width {
2026 if line.len() > shape.width + shape.indent.width() {
2035 pub fn rewrite_call_with_binary_search<R>(
2036 context: &RewriteContext,
2038 args: &[&ast::Expr],
2045 let force_trailing_comma = if context.inside_macro {
2046 span_ends_with_comma(context, span)
2050 let closure = |callee_max_width| {
2051 // FIXME using byte lens instead of char lens (and probably all over the
2053 let callee_shape = Shape {
2054 width: callee_max_width,
2057 let callee_str = callee
2058 .rewrite(context, callee_shape)
2059 .ok_or(Ordering::Greater)?;
2067 context.config.fn_call_width(),
2068 force_trailing_comma,
2072 binary_search(1, shape.width, closure)
2075 pub fn rewrite_call(
2076 context: &RewriteContext,
2078 args: &[ptr::P<ast::Expr>],
2081 ) -> Option<String> {
2082 let force_trailing_comma = if context.inside_macro {
2083 span_ends_with_comma(context, span)
2090 &args.iter().map(|x| &**x).collect::<Vec<_>>(),
2093 context.config.fn_call_width(),
2094 force_trailing_comma,
2098 pub fn rewrite_call_inner<'a, T>(
2099 context: &RewriteContext,
2104 args_max_width: usize,
2105 force_trailing_comma: bool,
2106 ) -> Result<String, Ordering>
2108 T: Rewrite + Spanned + ToExpr + 'a,
2110 // 2 = `( `, 1 = `(`
2111 let paren_overhead = if context.config.spaces_within_parens() {
2116 let used_width = extra_offset(&callee_str, shape);
2117 let one_line_width = shape
2119 .checked_sub(used_width + 2 * paren_overhead)
2120 .ok_or(Ordering::Greater)?;
2122 let nested_shape = shape_from_fn_call_style(
2125 used_width + 2 * paren_overhead,
2126 used_width + paren_overhead,
2127 ).ok_or(Ordering::Greater)?;
2129 let span_lo = context.codemap.span_after(span, "(");
2130 let args_span = mk_sp(span_lo, span.hi);
2132 let (extendable, list_str) = rewrite_call_args(
2139 force_trailing_comma,
2140 ).ok_or(Ordering::Less)?;
2142 if !context.use_block_indent() && need_block_indent(&list_str, nested_shape) && !extendable {
2143 let mut new_context = context.clone();
2144 new_context.use_block = true;
2145 return rewrite_call_inner(
2152 force_trailing_comma,
2156 let args_shape = shape
2157 .sub_width(last_line_width(&callee_str))
2158 .ok_or(Ordering::Less)?;
2162 wrap_args_with_parens(context, &list_str, extendable, args_shape, nested_shape)
2166 fn need_block_indent(s: &str, shape: Shape) -> bool {
2167 s.lines().skip(1).any(|s| {
2168 s.find(|c| !char::is_whitespace(c))
2169 .map_or(false, |w| w + 1 < shape.indent.width())
2173 fn rewrite_call_args<'a, T>(
2174 context: &RewriteContext,
2178 one_line_width: usize,
2179 args_max_width: usize,
2180 force_trailing_comma: bool,
2181 ) -> Option<(bool, String)>
2183 T: Rewrite + Spanned + ToExpr + 'a,
2185 let items = itemize_list(
2189 |item| item.span().lo,
2190 |item| item.span().hi,
2191 |item| item.rewrite(context, shape),
2196 let mut item_vec: Vec<_> = items.collect();
2198 // Try letting the last argument overflow to the next line with block
2199 // indentation. If its first line fits on one line with the other arguments,
2200 // we format the function arguments horizontally.
2201 let tactic = try_overflow_last_arg(
2210 let fmt = ListFormatting {
2213 trailing_separator: if force_trailing_comma {
2214 SeparatorTactic::Always
2215 } else if context.inside_macro || !context.use_block_indent() {
2216 SeparatorTactic::Never
2218 context.config.trailing_comma()
2221 ends_with_newline: context.use_block_indent() && tactic == DefinitiveListTactic::Vertical,
2222 preserve_newline: false,
2223 config: context.config,
2226 write_list(&item_vec, &fmt).map(|args_str| {
2227 (tactic != DefinitiveListTactic::Vertical, args_str)
2231 fn try_overflow_last_arg<'a, T>(
2232 context: &RewriteContext,
2233 item_vec: &mut Vec<ListItem>,
2236 one_line_width: usize,
2237 args_max_width: usize,
2238 ) -> DefinitiveListTactic
2240 T: Rewrite + Spanned + ToExpr + 'a,
2242 let overflow_last = can_be_overflowed(&context, args);
2244 // Replace the last item with its first line to see if it fits with
2246 let placeholder = if overflow_last {
2247 let mut context = context.clone();
2248 if let Some(expr) = args[args.len() - 1].to_expr() {
2250 ast::ExprKind::MethodCall(..) => context.force_one_line_chain = true,
2254 last_arg_shape(&context, &item_vec, shape, args_max_width).and_then(|arg_shape| {
2255 rewrite_last_arg_with_overflow(&context, args, &mut item_vec[args.len() - 1], arg_shape)
2261 let mut tactic = definitive_tactic(
2263 ListTactic::LimitedHorizontalVertical(args_max_width),
2268 // Replace the stub with the full overflowing last argument if the rewrite
2269 // succeeded and its first line fits with the other arguments.
2270 match (overflow_last, tactic, placeholder) {
2271 (true, DefinitiveListTactic::Horizontal, placeholder @ Some(..)) => {
2272 item_vec[args.len() - 1].item = placeholder;
2274 _ if args.len() >= 1 => {
2275 item_vec[args.len() - 1].item = args.last()
2276 .and_then(|last_arg| last_arg.rewrite(context, shape));
2277 tactic = definitive_tactic(
2279 ListTactic::LimitedHorizontalVertical(args_max_width),
2291 context: &RewriteContext,
2292 items: &Vec<ListItem>,
2294 args_max_width: usize,
2295 ) -> Option<Shape> {
2296 let overhead = items.iter().rev().skip(1).fold(0, |acc, i| {
2297 acc + i.item.as_ref().map_or(0, |s| first_line_width(&s))
2299 let max_width = min(args_max_width, shape.width);
2300 let arg_indent = if context.use_block_indent() {
2301 shape.block().indent.block_unindent(context.config)
2303 shape.block().indent
2306 width: try_opt!(max_width.checked_sub(overhead)),
2312 // Rewriting closure which is placed at the end of the function call's arg.
2313 // Returns `None` if the reformatted closure 'looks bad'.
2314 fn rewrite_last_closure(
2315 context: &RewriteContext,
2318 ) -> Option<String> {
2319 if let ast::ExprKind::Closure(capture, ref fn_decl, ref body, _) = expr.node {
2320 let body = match body.node {
2321 ast::ExprKind::Block(ref block) if block.stmts.len() == 1 => {
2322 stmt_expr(&block.stmts[0]).unwrap_or(body)
2326 let (prefix, extra_offset) = try_opt!(rewrite_closure_fn_decl(
2334 // If the closure goes multi line before its body, do not overflow the closure.
2335 if prefix.contains('\n') {
2338 let body_shape = try_opt!(shape.offset_left(extra_offset));
2339 // When overflowing the closure which consists of a single control flow expression,
2340 // force to use block if its condition uses multi line.
2341 let is_multi_lined_cond = rewrite_cond(context, body, body_shape)
2342 .map(|cond| cond.contains('\n') || cond.len() > body_shape.width)
2344 if is_multi_lined_cond {
2345 return rewrite_closure_with_block(context, body_shape, &prefix, body);
2348 // Seems fine, just format the closure in usual manner.
2349 return expr.rewrite(context, shape);
2354 fn rewrite_last_arg_with_overflow<'a, T>(
2355 context: &RewriteContext,
2357 last_item: &mut ListItem,
2361 T: Rewrite + Spanned + ToExpr + 'a,
2363 let last_arg = args[args.len() - 1];
2364 let rewrite = if let Some(expr) = last_arg.to_expr() {
2366 // When overflowing the closure which consists of a single control flow expression,
2367 // force to use block if its condition uses multi line.
2368 ast::ExprKind::Closure(..) => {
2369 // If the argument consists of multiple closures, we do not overflow
2370 // the last closure.
2371 if args.len() > 1 &&
2375 .filter_map(|arg| arg.to_expr())
2376 .any(|expr| match expr.node {
2377 ast::ExprKind::Closure(..) => true,
2382 rewrite_last_closure(context, expr, shape)
2385 _ => expr.rewrite(context, shape),
2388 last_arg.rewrite(context, shape)
2391 if let Some(rewrite) = rewrite {
2392 let rewrite_first_line = Some(rewrite[..first_line_width(&rewrite)].to_owned());
2393 last_item.item = rewrite_first_line;
2400 fn can_be_overflowed<'a, T>(context: &RewriteContext, args: &[&T]) -> bool
2402 T: Rewrite + Spanned + ToExpr + 'a,
2405 .map_or(false, |x| x.can_be_overflowed(context, args.len()))
2408 pub fn can_be_overflowed_expr(context: &RewriteContext, expr: &ast::Expr, args_len: usize) -> bool {
2410 ast::ExprKind::Match(..) => {
2411 (context.use_block_indent() && args_len == 1) ||
2412 (context.config.fn_call_style() == IndentStyle::Visual && args_len > 1)
2414 ast::ExprKind::If(..) |
2415 ast::ExprKind::IfLet(..) |
2416 ast::ExprKind::ForLoop(..) |
2417 ast::ExprKind::Loop(..) |
2418 ast::ExprKind::While(..) |
2419 ast::ExprKind::WhileLet(..) => {
2420 context.config.combine_control_expr() && context.use_block_indent() && args_len == 1
2422 ast::ExprKind::Block(..) | ast::ExprKind::Closure(..) => {
2423 context.use_block_indent() ||
2424 context.config.fn_call_style() == IndentStyle::Visual && args_len > 1
2426 ast::ExprKind::Array(..) |
2427 ast::ExprKind::Call(..) |
2428 ast::ExprKind::Mac(..) |
2429 ast::ExprKind::MethodCall(..) |
2430 ast::ExprKind::Struct(..) |
2431 ast::ExprKind::Tup(..) => context.use_block_indent() && args_len == 1,
2432 ast::ExprKind::AddrOf(_, ref expr) |
2433 ast::ExprKind::Box(ref expr) |
2434 ast::ExprKind::Try(ref expr) |
2435 ast::ExprKind::Unary(_, ref expr) |
2436 ast::ExprKind::Cast(ref expr, _) => can_be_overflowed_expr(context, expr, args_len),
2441 pub fn wrap_args_with_parens(
2442 context: &RewriteContext,
2444 is_extendable: bool,
2446 nested_shape: Shape,
2448 if !context.use_block_indent() ||
2449 (context.inside_macro && !args_str.contains('\n') &&
2450 args_str.len() + paren_overhead(context) <= shape.width) || is_extendable
2452 if context.config.spaces_within_parens() && args_str.len() > 0 {
2453 format!("( {} )", args_str)
2455 format!("({})", args_str)
2460 nested_shape.indent.to_string(context.config),
2462 shape.block().indent.to_string(context.config)
2467 fn span_ends_with_comma(context: &RewriteContext, span: Span) -> bool {
2468 let snippet = context.snippet(span);
2470 .trim_right_matches(|c: char| c == ')' || c.is_whitespace())
2474 fn rewrite_paren(context: &RewriteContext, subexpr: &ast::Expr, shape: Shape) -> Option<String> {
2475 debug!("rewrite_paren, shape: {:?}", shape);
2476 let total_paren_overhead = paren_overhead(context);
2477 let paren_overhead = total_paren_overhead / 2;
2478 let sub_shape = try_opt!(
2480 .offset_left(paren_overhead)
2481 .and_then(|s| s.sub_width(paren_overhead))
2484 let paren_wrapper = |s: &str| if context.config.spaces_within_parens() && s.len() > 0 {
2485 format!("( {} )", s)
2490 let subexpr_str = try_opt!(subexpr.rewrite(context, sub_shape));
2491 debug!("rewrite_paren, subexpr_str: `{:?}`", subexpr_str);
2493 if subexpr_str.contains('\n') ||
2494 first_line_width(&subexpr_str) + total_paren_overhead <= shape.width
2496 Some(paren_wrapper(&subexpr_str))
2505 context: &RewriteContext,
2507 ) -> Option<String> {
2508 let expr_str = try_opt!(expr.rewrite(context, shape));
2510 let (lbr, rbr) = if context.config.spaces_within_square_brackets() {
2516 let offset = last_line_width(&expr_str) + lbr.len();
2517 let rhs_overhead = shape.rhs_overhead(context.config);
2518 let index_shape = if expr_str.contains('\n') {
2519 Shape::legacy(context.config.max_width(), shape.indent)
2520 .offset_left(offset)
2521 .and_then(|shape| shape.sub_width(rbr.len() + rhs_overhead))
2523 shape.visual_indent(offset).sub_width(offset + rbr.len())
2525 let orig_index_rw = index_shape.and_then(|s| index.rewrite(context, s));
2527 // Return if index fits in a single line.
2528 match orig_index_rw {
2529 Some(ref index_str) if !index_str.contains('\n') => {
2530 return Some(format!("{}{}{}{}", expr_str, lbr, index_str, rbr));
2535 // Try putting index on the next line and see if it fits in a single line.
2536 let indent = shape.indent.block_indent(context.config);
2537 let index_shape = try_opt!(Shape::indented(indent, context.config).offset_left(lbr.len()));
2538 let index_shape = try_opt!(index_shape.sub_width(rbr.len() + rhs_overhead));
2539 let new_index_rw = index.rewrite(context, index_shape);
2540 match (orig_index_rw, new_index_rw) {
2541 (_, Some(ref new_index_str)) if !new_index_str.contains('\n') => Some(format!(
2544 indent.to_string(&context.config),
2549 (None, Some(ref new_index_str)) => Some(format!(
2552 indent.to_string(&context.config),
2557 (Some(ref index_str), _) => Some(format!("{}{}{}{}", expr_str, lbr, index_str, rbr)),
2562 fn struct_lit_can_be_aligned(fields: &[ast::Field], base: &Option<&ast::Expr>) -> bool {
2567 fields.iter().all(|field| !field.is_shorthand)
2570 fn rewrite_struct_lit<'a>(
2571 context: &RewriteContext,
2573 fields: &'a [ast::Field],
2574 base: Option<&'a ast::Expr>,
2577 ) -> Option<String> {
2578 debug!("rewrite_struct_lit: shape {:?}", shape);
2580 enum StructLitField<'a> {
2581 Regular(&'a ast::Field),
2582 Base(&'a ast::Expr),
2586 let path_shape = try_opt!(shape.sub_width(2));
2587 let path_str = try_opt!(rewrite_path(
2595 if fields.len() == 0 && base.is_none() {
2596 return Some(format!("{} {{}}", path_str));
2599 // Foo { a: Foo } - indent is +3, width is -5.
2600 let (h_shape, v_shape) = try_opt!(struct_lit_shape(shape, context, path_str.len() + 3, 2));
2602 let one_line_width = h_shape.map_or(0, |shape| shape.width);
2603 let body_lo = context.codemap.span_after(span, "{");
2604 let fields_str = if struct_lit_can_be_aligned(fields, &base) &&
2605 context.config.struct_field_align_threshold() > 0
2607 try_opt!(rewrite_with_alignment(
2611 mk_sp(body_lo, span.hi),
2615 let field_iter = fields
2617 .map(StructLitField::Regular)
2618 .chain(base.into_iter().map(StructLitField::Base));
2620 let span_lo = |item: &StructLitField| match *item {
2621 StructLitField::Regular(field) => field.span().lo,
2622 StructLitField::Base(expr) => {
2623 let last_field_hi = fields.last().map_or(span.lo, |field| field.span.hi);
2624 let snippet = context.snippet(mk_sp(last_field_hi, expr.span.lo));
2625 let pos = snippet.find_uncommented("..").unwrap();
2626 last_field_hi + BytePos(pos as u32)
2629 let span_hi = |item: &StructLitField| match *item {
2630 StructLitField::Regular(field) => field.span().hi,
2631 StructLitField::Base(expr) => expr.span.hi,
2633 let rewrite = |item: &StructLitField| match *item {
2634 StructLitField::Regular(field) => {
2635 // The 1 taken from the v_budget is for the comma.
2636 rewrite_field(context, field, try_opt!(v_shape.sub_width(1)), 0)
2638 StructLitField::Base(expr) => {
2640 expr.rewrite(context, try_opt!(v_shape.offset_left(2)))
2641 .map(|s| format!("..{}", s))
2645 let items = itemize_list(
2656 let item_vec = items.collect::<Vec<_>>();
2658 let tactic = struct_lit_tactic(h_shape, context, &item_vec);
2659 let nested_shape = shape_for_tactic(tactic, h_shape, v_shape);
2660 let fmt = struct_lit_formatting(nested_shape, tactic, context, base.is_some());
2662 try_opt!(write_list(&item_vec, &fmt))
2665 let fields_str = wrap_struct_field(context, &fields_str, shape, v_shape, one_line_width);
2666 Some(format!("{} {{{}}}", path_str, fields_str))
2668 // FIXME if context.config.struct_lit_style() == Visual, but we run out
2669 // of space, we should fall back to BlockIndent.
2672 pub fn wrap_struct_field(
2673 context: &RewriteContext,
2676 nested_shape: Shape,
2677 one_line_width: usize,
2679 if context.config.struct_lit_style() == IndentStyle::Block &&
2680 (fields_str.contains('\n') ||
2681 context.config.struct_lit_multiline_style() == MultilineStyle::ForceMulti ||
2682 fields_str.len() > one_line_width)
2686 nested_shape.indent.to_string(context.config),
2688 shape.indent.to_string(context.config)
2691 // One liner or visual indent.
2692 format!(" {} ", fields_str)
2696 pub fn struct_lit_field_separator(config: &Config) -> &str {
2698 config.space_before_struct_lit_field_colon(),
2699 config.space_after_struct_lit_field_colon(),
2703 pub fn rewrite_field(
2704 context: &RewriteContext,
2707 prefix_max_width: usize,
2708 ) -> Option<String> {
2709 if contains_skip(&field.attrs) {
2711 context.snippet(field.span()),
2712 context.config.max_width(),
2716 let name = &field.ident.node.to_string();
2717 if field.is_shorthand {
2718 Some(name.to_string())
2720 let mut separator = String::from(struct_lit_field_separator(context.config));
2721 for _ in 0..prefix_max_width.checked_sub(name.len()).unwrap_or(0) {
2722 separator.push(' ');
2724 let overhead = name.len() + separator.len();
2725 let expr_shape = try_opt!(shape.offset_left(overhead));
2726 let expr = field.expr.rewrite(context, expr_shape);
2728 let mut attrs_str = try_opt!(field.attrs.rewrite(context, shape));
2729 if !attrs_str.is_empty() {
2730 attrs_str.push_str(&format!("\n{}", shape.indent.to_string(context.config)));
2734 Some(e) => Some(format!("{}{}{}{}", attrs_str, name, separator, e)),
2736 let expr_offset = shape.indent.block_indent(context.config);
2739 .rewrite(context, Shape::indented(expr_offset, context.config));
2745 expr_offset.to_string(&context.config),
2754 fn shape_from_fn_call_style(
2755 context: &RewriteContext,
2759 ) -> Option<Shape> {
2760 if context.use_block_indent() {
2764 .block_indent(context.config.tab_spaces())
2765 .with_max_width(context.config)
2768 shape.visual_indent(offset).sub_width(overhead)
2772 fn rewrite_tuple_in_visual_indent_style<'a, T>(
2773 context: &RewriteContext,
2779 T: Rewrite + Spanned + ToExpr + 'a,
2781 let mut items = items.iter();
2782 // In case of length 1, need a trailing comma
2783 debug!("rewrite_tuple_in_visual_indent_style {:?}", shape);
2784 if items.len() == 1 {
2786 let nested_shape = try_opt!(shape.sub_width(3)).visual_indent(1);
2787 return items.next().unwrap().rewrite(context, nested_shape).map(
2788 |s| if context.config.spaces_within_parens() {
2789 format!("( {}, )", s)
2796 let list_lo = context.codemap.span_after(span, "(");
2797 let nested_shape = try_opt!(shape.sub_width(2)).visual_indent(1);
2798 let items = itemize_list(
2802 |item| item.span().lo,
2803 |item| item.span().hi,
2804 |item| item.rewrite(context, nested_shape),
2806 span.hi - BytePos(1),
2809 let item_vec: Vec<_> = items.collect();
2810 let tactic = definitive_tactic(
2812 ListTactic::HorizontalVertical,
2816 let fmt = ListFormatting {
2819 trailing_separator: SeparatorTactic::Never,
2821 ends_with_newline: false,
2822 preserve_newline: false,
2823 config: context.config,
2825 let list_str = try_opt!(write_list(&item_vec, &fmt));
2827 if context.config.spaces_within_parens() && list_str.len() > 0 {
2828 Some(format!("( {} )", list_str))
2830 Some(format!("({})", list_str))
2834 pub fn rewrite_tuple<'a, T>(
2835 context: &RewriteContext,
2841 T: Rewrite + Spanned + ToExpr + 'a,
2843 debug!("rewrite_tuple {:?}", shape);
2844 if context.use_block_indent() {
2845 // We use the same rule as funcation call for rewriting tuple.
2846 let force_trailing_comma = if context.inside_macro {
2847 span_ends_with_comma(context, span)
2857 context.config.fn_call_width(),
2858 force_trailing_comma,
2861 rewrite_tuple_in_visual_indent_style(context, items, span, shape)
2865 pub fn rewrite_unary_prefix<R: Rewrite>(
2866 context: &RewriteContext,
2870 ) -> Option<String> {
2872 .rewrite(context, try_opt!(shape.offset_left(prefix.len())))
2873 .map(|r| format!("{}{}", prefix, r))
2876 // FIXME: this is probably not correct for multi-line Rewrites. we should
2877 // subtract suffix.len() from the last line budget, not the first!
2878 pub fn rewrite_unary_suffix<R: Rewrite>(
2879 context: &RewriteContext,
2883 ) -> Option<String> {
2885 .rewrite(context, try_opt!(shape.sub_width(suffix.len())))
2892 fn rewrite_unary_op(
2893 context: &RewriteContext,
2897 ) -> Option<String> {
2898 // For some reason, an UnOp is not spanned like BinOp!
2899 let operator_str = match *op {
2900 ast::UnOp::Deref => "*",
2901 ast::UnOp::Not => "!",
2902 ast::UnOp::Neg => "-",
2904 rewrite_unary_prefix(context, operator_str, expr, shape)
2907 fn rewrite_assignment(
2908 context: &RewriteContext,
2911 op: Option<&ast::BinOp>,
2913 ) -> Option<String> {
2914 let operator_str = match op {
2915 Some(op) => context.snippet(op.span),
2916 None => "=".to_owned(),
2919 // 1 = space between lhs and operator.
2920 let lhs_shape = try_opt!(shape.sub_width(operator_str.len() + 1));
2921 let lhs_str = format!(
2923 try_opt!(lhs.rewrite(context, lhs_shape)),
2927 rewrite_assign_rhs(context, lhs_str, rhs, shape)
2930 // The left hand side must contain everything up to, and including, the
2931 // assignment operator.
2932 pub fn rewrite_assign_rhs<S: Into<String>>(
2933 context: &RewriteContext,
2937 ) -> Option<String> {
2938 let lhs = lhs.into();
2939 let last_line_width = last_line_width(&lhs) - if lhs.contains('\n') {
2940 shape.indent.width()
2944 // 1 = space between operator and rhs.
2945 let orig_shape = try_opt!(shape.offset_left(last_line_width + 1));
2946 let rhs = try_opt!(choose_rhs(
2950 ex.rewrite(context, orig_shape)
2956 context: &RewriteContext,
2959 orig_rhs: Option<String>,
2960 ) -> Option<String> {
2962 Some(ref new_str) if !new_str.contains('\n') => Some(format!(" {}", new_str)),
2964 // Expression did not fit on the same line as the identifier.
2965 // Try splitting the line and see if that works better.
2966 let new_shape = try_opt!(
2968 shape.block().indent.block_indent(context.config),
2970 ).sub_width(shape.rhs_overhead(context.config))
2972 let new_rhs = expr.rewrite(context, new_shape);
2973 let new_indent_str = &new_shape.indent.to_string(context.config);
2975 match (orig_rhs, new_rhs) {
2976 (Some(ref orig_rhs), Some(ref new_rhs)) if prefer_next_line(orig_rhs, new_rhs) => {
2977 Some(format!("\n{}{}", new_indent_str, new_rhs))
2979 (None, Some(ref new_rhs)) => Some(format!("\n{}{}", new_indent_str, new_rhs)),
2980 (None, None) => None,
2981 (Some(ref orig_rhs), _) => Some(format!(" {}", orig_rhs)),
2987 fn prefer_next_line(orig_rhs: &str, next_line_rhs: &str) -> bool {
2989 fn count_line_breaks(src: &str) -> usize {
2990 src.chars().filter(|&x| x == '\n').count()
2993 !next_line_rhs.contains('\n') ||
2994 count_line_breaks(orig_rhs) > count_line_breaks(next_line_rhs) + 1
2997 fn rewrite_expr_addrof(
2998 context: &RewriteContext,
2999 mutability: ast::Mutability,
3002 ) -> Option<String> {
3003 let operator_str = match mutability {
3004 ast::Mutability::Immutable => "&",
3005 ast::Mutability::Mutable => "&mut ",
3007 rewrite_unary_prefix(context, operator_str, expr, shape)
3011 fn to_expr(&self) -> Option<&ast::Expr>;
3012 fn can_be_overflowed(&self, context: &RewriteContext, len: usize) -> bool;
3015 impl ToExpr for ast::Expr {
3016 fn to_expr(&self) -> Option<&ast::Expr> {
3020 fn can_be_overflowed(&self, context: &RewriteContext, len: usize) -> bool {
3021 can_be_overflowed_expr(context, self, len)
3025 impl ToExpr for ast::Ty {
3026 fn to_expr(&self) -> Option<&ast::Expr> {
3030 fn can_be_overflowed(&self, context: &RewriteContext, len: usize) -> bool {
3031 can_be_overflowed_type(context, self, len)
3035 impl<'a> ToExpr for TuplePatField<'a> {
3036 fn to_expr(&self) -> Option<&ast::Expr> {
3040 fn can_be_overflowed(&self, context: &RewriteContext, len: usize) -> bool {
3041 can_be_overflowed_pat(context, self, len)
3045 impl<'a> ToExpr for ast::StructField {
3046 fn to_expr(&self) -> Option<&ast::Expr> {
3050 fn can_be_overflowed(&self, _: &RewriteContext, _: usize) -> bool {