use std::collections::HashMap;
use std::panic::{catch_unwind, AssertUnwindSafe};
use rustc_ast::token::{BinOpToken, Delimiter, Token, TokenKind};
use rustc_ast::tokenstream::{RefTokenTreeCursor, TokenStream, TokenTree};
use rustc_ast::{ast, ptr};
use rustc_ast_pretty::pprust;
use rustc_span::{
symbol::{self, kw},
BytePos, Span, Symbol, DUMMY_SP,
};
use crate::comment::{
contains_comment, CharClasses, FindUncommented, FullCodeCharKind, LineClasses,
};
use crate::config::lists::*;
use crate::expr::{rewrite_array, rewrite_assign_rhs, RhsAssignKind};
use crate::lists::{itemize_list, write_list, ListFormatting};
use crate::overflow;
use crate::parse::macros::lazy_static::parse_lazy_static;
use crate::parse::macros::{parse_expr, parse_macro_args, ParsedMacroArgs};
use crate::rewrite::{Rewrite, RewriteContext};
use crate::shape::{Indent, Shape};
use crate::source_map::SpanUtils;
use crate::spanned::Spanned;
use crate::utils::{
filtered_str_fits, format_visibility, indent_next_line, is_empty_line, mk_sp,
remove_trailing_white_spaces, rewrite_ident, trim_left_preserve_layout, NodeIdExt,
};
use crate::visitor::FmtVisitor;
const FORCED_BRACKET_MACROS: &[&str] = &["vec!"];
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub(crate) enum MacroPosition {
Item,
Statement,
Expression,
Pat,
}
#[derive(Debug)]
pub(crate) enum MacroArg {
Expr(ptr::P<ast::Expr>),
Ty(ptr::P<ast::Ty>),
Pat(ptr::P<ast::Pat>),
Item(ptr::P<ast::Item>),
Keyword(symbol::Ident, Span),
}
impl MacroArg {
pub(crate) fn is_item(&self) -> bool {
match self {
MacroArg::Item(..) => true,
_ => false,
}
}
}
impl Rewrite for ast::Item {
fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option<String> {
let mut visitor = crate::visitor::FmtVisitor::from_context(context);
visitor.block_indent = shape.indent;
visitor.last_pos = self.span().lo();
visitor.visit_item(self);
Some(visitor.buffer.to_owned())
}
}
impl Rewrite for MacroArg {
fn rewrite(&self, context: &RewriteContext<'_>, shape: Shape) -> Option<String> {
match *self {
MacroArg::Expr(ref expr) => expr.rewrite(context, shape),
MacroArg::Ty(ref ty) => ty.rewrite(context, shape),
MacroArg::Pat(ref pat) => pat.rewrite(context, shape),
MacroArg::Item(ref item) => item.rewrite(context, shape),
MacroArg::Keyword(ident, _) => Some(ident.name.to_string()),
}
}
}
fn rewrite_macro_name(
context: &RewriteContext<'_>,
path: &ast::Path,
extra_ident: Option<symbol::Ident>,
) -> String {
let name = if path.segments.len() == 1 {
format!("{}!", rewrite_ident(context, path.segments[0].ident))
} else {
format!("{}!", pprust::path_to_string(path))
};
match extra_ident {
Some(ident) if ident.name != kw::Empty => format!("{} {}", name, ident),
_ => name,
}
}
fn return_macro_parse_failure_fallback(
context: &RewriteContext<'_>,
indent: Indent,
position: MacroPosition,
span: Span,
) -> Option<String> {
context.macro_rewrite_failure.replace(true);
let is_like_block_indent_style = context
.snippet(span)
.lines()
.last()
.map(|closing_line| {
closing_line
.trim()
.chars()
.all(|ch| matches!(ch, '}' | ')' | ']'))
})
.unwrap_or(false);
if is_like_block_indent_style {
return trim_left_preserve_layout(context.snippet(span), indent, context.config);
}
context.skipped_range.borrow_mut().push((
context.parse_sess.line_of_byte_pos(span.lo()),
context.parse_sess.line_of_byte_pos(span.hi()),
));
let mut snippet = context.snippet(span).to_owned();
if position == MacroPosition::Item {
snippet.push(';');
}
Some(snippet)
}
pub(crate) fn rewrite_macro(
mac: &ast::MacCall,
extra_ident: Option<symbol::Ident>,
context: &RewriteContext<'_>,
shape: Shape,
position: MacroPosition,
) -> Option<String> {
let should_skip = context
.skip_context
.macros
.skip(context.snippet(mac.path.span));
if should_skip {
None
} else {
let guard = context.enter_macro();
let result = catch_unwind(AssertUnwindSafe(|| {
rewrite_macro_inner(
mac,
extra_ident,
context,
shape,
position,
guard.is_nested(),
)
}));
match result {
Err(..) | Ok(None) => {
context.macro_rewrite_failure.replace(true);
None
}
Ok(rw) => rw,
}
}
}
fn rewrite_macro_inner(
mac: &ast::MacCall,
extra_ident: Option<symbol::Ident>,
context: &RewriteContext<'_>,
shape: Shape,
position: MacroPosition,
is_nested_macro: bool,
) -> Option<String> {
if context.config.use_try_shorthand() {
if let Some(expr) = convert_try_mac(mac, context) {
context.leave_macro();
return expr.rewrite(context, shape);
}
}
let original_style = macro_style(mac, context);
let macro_name = rewrite_macro_name(context, &mac.path, extra_ident);
let is_forced_bracket = FORCED_BRACKET_MACROS.contains(&¯o_name[..]);
let style = if is_forced_bracket && !is_nested_macro {
Delimiter::Bracket
} else {
original_style
};
let ts = mac.args.tokens.clone();
let has_comment = contains_comment(context.snippet(mac.span()));
if ts.is_empty() && !has_comment {
return match style {
Delimiter::Parenthesis if position == MacroPosition::Item => {
Some(format!("{}();", macro_name))
}
Delimiter::Bracket if position == MacroPosition::Item => {
Some(format!("{}[];", macro_name))
}
Delimiter::Parenthesis => Some(format!("{}()", macro_name)),
Delimiter::Bracket => Some(format!("{}[]", macro_name)),
Delimiter::Brace => Some(format!("{} {{}}", macro_name)),
_ => unreachable!(),
};
}
if macro_name == "lazy_static!" && !has_comment {
if let success @ Some(..) = format_lazy_static(context, shape, ts.clone()) {
return success;
}
}
let ParsedMacroArgs {
args: arg_vec,
vec_with_semi,
trailing_comma,
} = match parse_macro_args(context, ts, style, is_forced_bracket) {
Some(args) => args,
None => {
return return_macro_parse_failure_fallback(
context,
shape.indent,
position,
mac.span(),
);
}
};
if !arg_vec.is_empty() && arg_vec.iter().all(MacroArg::is_item) {
return rewrite_macro_with_items(
context,
&arg_vec,
¯o_name,
shape,
style,
position,
mac.span(),
);
}
match style {
Delimiter::Parenthesis => {
if vec_with_semi {
handle_vec_semi(context, shape, arg_vec, macro_name, style)
} else {
overflow::rewrite_with_parens(
context,
¯o_name,
arg_vec.iter(),
shape,
mac.span(),
context.config.fn_call_width(),
if trailing_comma {
Some(SeparatorTactic::Always)
} else {
Some(SeparatorTactic::Never)
},
)
.map(|rw| match position {
MacroPosition::Item => format!("{};", rw),
_ => rw,
})
}
}
Delimiter::Bracket => {
if vec_with_semi {
handle_vec_semi(context, shape, arg_vec, macro_name, style)
} else {
let macro_name = ¯o_name.as_str();
let mut force_trailing_comma = if trailing_comma {
Some(SeparatorTactic::Always)
} else {
Some(SeparatorTactic::Never)
};
if FORCED_BRACKET_MACROS.contains(macro_name) && !is_nested_macro {
context.leave_macro();
if context.use_block_indent() {
force_trailing_comma = Some(SeparatorTactic::Vertical);
};
}
let rewrite = rewrite_array(
macro_name,
arg_vec.iter(),
mac.span(),
context,
shape,
force_trailing_comma,
Some(original_style),
)?;
let comma = match position {
MacroPosition::Item => ";",
_ => "",
};
Some(format!("{}{}", rewrite, comma))
}
}
Delimiter::Brace => {
let snippet = context.snippet(mac.span()).trim_start_matches(|c| c != '{');
match trim_left_preserve_layout(snippet, shape.indent, context.config) {
Some(macro_body) => Some(format!("{} {}", macro_name, macro_body)),
None => Some(format!("{} {}", macro_name, snippet)),
}
}
_ => unreachable!(),
}
}
fn handle_vec_semi(
context: &RewriteContext<'_>,
shape: Shape,
arg_vec: Vec<MacroArg>,
macro_name: String,
delim_token: Delimiter,
) -> Option<String> {
let (left, right) = match delim_token {
Delimiter::Parenthesis => ("(", ")"),
Delimiter::Bracket => ("[", "]"),
_ => unreachable!(),
};
let mac_shape = shape.offset_left(macro_name.len())?;
let total_overhead = 8;
let nested_shape = mac_shape.block_indent(context.config.tab_spaces());
let lhs = arg_vec[0].rewrite(context, nested_shape)?;
let rhs = arg_vec[1].rewrite(context, nested_shape)?;
if !lhs.contains('\n')
&& !rhs.contains('\n')
&& lhs.len() + rhs.len() + total_overhead <= shape.width
{
Some(format!("{}{}{}; {}{}", macro_name, left, lhs, rhs, right))
} else {
Some(format!(
"{}{}{}{};{}{}{}{}",
macro_name,
left,
nested_shape.indent.to_string_with_newline(context.config),
lhs,
nested_shape.indent.to_string_with_newline(context.config),
rhs,
shape.indent.to_string_with_newline(context.config),
right
))
}
}
pub(crate) fn rewrite_macro_def(
context: &RewriteContext<'_>,
shape: Shape,
indent: Indent,
def: &ast::MacroDef,
ident: symbol::Ident,
vis: &ast::Visibility,
span: Span,
) -> Option<String> {
let snippet = Some(remove_trailing_white_spaces(context.snippet(span)));
if snippet.as_ref().map_or(true, |s| s.ends_with(';')) {
return snippet;
}
let ts = def.body.tokens.clone();
let mut parser = MacroParser::new(ts.trees());
let parsed_def = match parser.parse() {
Some(def) => def,
None => return snippet,
};
let mut result = if def.macro_rules {
String::from("macro_rules!")
} else {
format!("{}macro", format_visibility(context, vis))
};
result += " ";
result += rewrite_ident(context, ident);
let multi_branch_style = def.macro_rules || parsed_def.branches.len() != 1;
let arm_shape = if multi_branch_style {
shape
.block_indent(context.config.tab_spaces())
.with_max_width(context.config)
} else {
shape
};
let branch_items = itemize_list(
context.snippet_provider,
parsed_def.branches.iter(),
"}",
";",
|branch| branch.span.lo(),
|branch| branch.span.hi(),
|branch| match branch.rewrite(context, arm_shape, multi_branch_style) {
Some(v) => Some(v),
None if context.macro_rewrite_failure.get() => {
Some(context.snippet(branch.body).trim().to_string())
}
None => None,
},
context.snippet_provider.span_after(span, "{"),
span.hi(),
false,
)
.collect::<Vec<_>>();
let fmt = ListFormatting::new(arm_shape, context.config)
.separator(if def.macro_rules { ";" } else { "" })
.trailing_separator(SeparatorTactic::Always)
.preserve_newline(true);
if multi_branch_style {
result += " {";
result += &arm_shape.indent.to_string_with_newline(context.config);
}
match write_list(&branch_items, &fmt) {
Some(ref s) => result += s,
None => return snippet,
}
if multi_branch_style {
result += &indent.to_string_with_newline(context.config);
result += "}";
}
Some(result)
}
fn register_metavariable(
map: &mut HashMap<String, String>,
result: &mut String,
name: &str,
dollar_count: usize,
) {
let mut new_name = "$".repeat(dollar_count - 1);
let mut old_name = "$".repeat(dollar_count);
new_name.push('z');
new_name.push_str(name);
old_name.push_str(name);
result.push_str(&new_name);
map.insert(old_name, new_name);
}
fn replace_names(input: &str) -> Option<(String, HashMap<String, String>)> {
let mut result = String::with_capacity(input.len() + 64);
let mut substs = HashMap::new();
let mut dollar_count = 0;
let mut cur_name = String::new();
for (kind, c) in CharClasses::new(input.chars()) {
if kind != FullCodeCharKind::Normal {
result.push(c);
} else if c == '$' {
dollar_count += 1;
} else if dollar_count == 0 {
result.push(c);
} else if !c.is_alphanumeric() && !cur_name.is_empty() {
register_metavariable(&mut substs, &mut result, &cur_name, dollar_count);
result.push(c);
dollar_count = 0;
cur_name.clear();
} else if c == '(' && cur_name.is_empty() {
return None;
} else if c.is_alphanumeric() || c == '_' {
cur_name.push(c);
}
}
if !cur_name.is_empty() {
register_metavariable(&mut substs, &mut result, &cur_name, dollar_count);
}
debug!("replace_names `{}` {:?}", result, substs);
Some((result, substs))
}
#[derive(Debug, Clone)]
enum MacroArgKind {
MetaVariable(Symbol, String),
Repeat(
Delimiter,
Vec<ParsedMacroArg>,
Option<Box<ParsedMacroArg>>,
Token,
),
Delimited(Delimiter, Vec<ParsedMacroArg>),
Separator(String, String),
Other(String, String),
}
fn delim_token_to_str(
context: &RewriteContext<'_>,
delim_token: Delimiter,
shape: Shape,
use_multiple_lines: bool,
inner_is_empty: bool,
) -> (String, String) {
let (lhs, rhs) = match delim_token {
Delimiter::Parenthesis => ("(", ")"),
Delimiter::Bracket => ("[", "]"),
Delimiter::Brace => {
if inner_is_empty || use_multiple_lines {
("{", "}")
} else {
("{ ", " }")
}
}
Delimiter::Invisible => unreachable!(),
};
if use_multiple_lines {
let indent_str = shape.indent.to_string_with_newline(context.config);
let nested_indent_str = shape
.indent
.block_indent(context.config)
.to_string_with_newline(context.config);
(
format!("{}{}", lhs, nested_indent_str),
format!("{}{}", indent_str, rhs),
)
} else {
(lhs.to_owned(), rhs.to_owned())
}
}
impl MacroArgKind {
fn starts_with_brace(&self) -> bool {
matches!(
*self,
MacroArgKind::Repeat(Delimiter::Brace, _, _, _)
| MacroArgKind::Delimited(Delimiter::Brace, _)
)
}
fn starts_with_dollar(&self) -> bool {
matches!(
*self,
MacroArgKind::Repeat(..) | MacroArgKind::MetaVariable(..)
)
}
fn ends_with_space(&self) -> bool {
matches!(*self, MacroArgKind::Separator(..))
}
fn has_meta_var(&self) -> bool {
match *self {
MacroArgKind::MetaVariable(..) => true,
MacroArgKind::Repeat(_, ref args, _, _) => args.iter().any(|a| a.kind.has_meta_var()),
_ => false,
}
}
fn rewrite(
&self,
context: &RewriteContext<'_>,
shape: Shape,
use_multiple_lines: bool,
) -> Option<String> {
let rewrite_delimited_inner = |delim_tok, args| -> Option<(String, String, String)> {
let inner = wrap_macro_args(context, args, shape)?;
let (lhs, rhs) = delim_token_to_str(context, delim_tok, shape, false, inner.is_empty());
if lhs.len() + inner.len() + rhs.len() <= shape.width {
return Some((lhs, inner, rhs));
}
let (lhs, rhs) = delim_token_to_str(context, delim_tok, shape, true, false);
let nested_shape = shape
.block_indent(context.config.tab_spaces())
.with_max_width(context.config);
let inner = wrap_macro_args(context, args, nested_shape)?;
Some((lhs, inner, rhs))
};
match *self {
MacroArgKind::MetaVariable(ty, ref name) => Some(format!("${}:{}", name, ty)),
MacroArgKind::Repeat(delim_tok, ref args, ref another, ref tok) => {
let (lhs, inner, rhs) = rewrite_delimited_inner(delim_tok, args)?;
let another = another
.as_ref()
.and_then(|a| a.rewrite(context, shape, use_multiple_lines))
.unwrap_or_else(|| "".to_owned());
let repeat_tok = pprust::token_to_string(tok);
Some(format!("${}{}{}{}{}", lhs, inner, rhs, another, repeat_tok))
}
MacroArgKind::Delimited(delim_tok, ref args) => {
rewrite_delimited_inner(delim_tok, args)
.map(|(lhs, inner, rhs)| format!("{}{}{}", lhs, inner, rhs))
}
MacroArgKind::Separator(ref sep, ref prefix) => Some(format!("{}{} ", prefix, sep)),
MacroArgKind::Other(ref inner, ref prefix) => Some(format!("{}{}", prefix, inner)),
}
}
}
#[derive(Debug, Clone)]
struct ParsedMacroArg {
kind: MacroArgKind,
}
impl ParsedMacroArg {
fn rewrite(
&self,
context: &RewriteContext<'_>,
shape: Shape,
use_multiple_lines: bool,
) -> Option<String> {
self.kind.rewrite(context, shape, use_multiple_lines)
}
}
struct MacroArgParser {
buf: String,
start_tok: Token,
is_meta_var: bool,
last_tok: Token,
result: Vec<ParsedMacroArg>,
}
fn last_tok(tt: &TokenTree) -> Token {
match *tt {
TokenTree::Token(ref t, _) => t.clone(),
TokenTree::Delimited(delim_span, delim, _) => Token {
kind: TokenKind::CloseDelim(delim),
span: delim_span.close,
},
}
}
impl MacroArgParser {
fn new() -> MacroArgParser {
MacroArgParser {
buf: String::new(),
is_meta_var: false,
last_tok: Token {
kind: TokenKind::Eof,
span: DUMMY_SP,
},
start_tok: Token {
kind: TokenKind::Eof,
span: DUMMY_SP,
},
result: vec![],
}
}
fn set_last_tok(&mut self, tok: &TokenTree) {
self.last_tok = last_tok(tok);
}
fn add_separator(&mut self) {
let prefix = if self.need_space_prefix() {
" ".to_owned()
} else {
"".to_owned()
};
self.result.push(ParsedMacroArg {
kind: MacroArgKind::Separator(self.buf.clone(), prefix),
});
self.buf.clear();
}
fn add_other(&mut self) {
let prefix = if self.need_space_prefix() {
" ".to_owned()
} else {
"".to_owned()
};
self.result.push(ParsedMacroArg {
kind: MacroArgKind::Other(self.buf.clone(), prefix),
});
self.buf.clear();
}
fn add_meta_variable(&mut self, iter: &mut RefTokenTreeCursor<'_>) -> Option<()> {
match iter.next() {
Some(&TokenTree::Token(
Token {
kind: TokenKind::Ident(name, _),
..
},
_,
)) => {
self.result.push(ParsedMacroArg {
kind: MacroArgKind::MetaVariable(name, self.buf.clone()),
});
self.buf.clear();
self.is_meta_var = false;
Some(())
}
_ => None,
}
}
fn add_delimited(&mut self, inner: Vec<ParsedMacroArg>, delim: Delimiter) {
self.result.push(ParsedMacroArg {
kind: MacroArgKind::Delimited(delim, inner),
});
}
fn add_repeat(
&mut self,
inner: Vec<ParsedMacroArg>,
delim: Delimiter,
iter: &mut RefTokenTreeCursor<'_>,
) -> Option<()> {
let mut buffer = String::new();
let mut first = true;
for tok in iter {
self.set_last_tok(&tok);
if first {
first = false;
}
match tok {
TokenTree::Token(
Token {
kind: TokenKind::BinOp(BinOpToken::Plus),
..
},
_,
)
| TokenTree::Token(
Token {
kind: TokenKind::Question,
..
},
_,
)
| TokenTree::Token(
Token {
kind: TokenKind::BinOp(BinOpToken::Star),
..
},
_,
) => {
break;
}
TokenTree::Token(ref t, _) => {
buffer.push_str(&pprust::token_to_string(t));
}
_ => return None,
}
}
let another = if buffer.trim().is_empty() {
None
} else {
Some(Box::new(ParsedMacroArg {
kind: MacroArgKind::Other(buffer, "".to_owned()),
}))
};
self.result.push(ParsedMacroArg {
kind: MacroArgKind::Repeat(delim, inner, another, self.last_tok.clone()),
});
Some(())
}
fn update_buffer(&mut self, t: &Token) {
if self.buf.is_empty() {
self.start_tok = t.clone();
} else {
let needs_space = match next_space(&self.last_tok.kind) {
SpaceState::Ident => ident_like(t),
SpaceState::Punctuation => !ident_like(t),
SpaceState::Always => true,
SpaceState::Never => false,
};
if force_space_before(&t.kind) || needs_space {
self.buf.push(' ');
}
}
self.buf.push_str(&pprust::token_to_string(t));
}
fn need_space_prefix(&self) -> bool {
if self.result.is_empty() {
return false;
}
let last_arg = self.result.last().unwrap();
if let MacroArgKind::MetaVariable(..) = last_arg.kind {
if ident_like(&self.start_tok) {
return true;
}
if self.start_tok.kind == TokenKind::Colon {
return true;
}
}
if force_space_before(&self.start_tok.kind) {
return true;
}
false
}
fn parse(mut self, tokens: TokenStream) -> Option<Vec<ParsedMacroArg>> {
let mut iter = tokens.trees();
while let Some(tok) = iter.next() {
match tok {
&TokenTree::Token(
Token {
kind: TokenKind::Dollar,
span,
},
_,
) => {
if !self.buf.is_empty() {
self.add_separator();
}
self.is_meta_var = true;
self.start_tok = Token {
kind: TokenKind::Dollar,
span,
};
}
TokenTree::Token(
Token {
kind: TokenKind::Colon,
..
},
_,
) if self.is_meta_var => {
self.add_meta_variable(&mut iter)?;
}
TokenTree::Token(ref t, _) => self.update_buffer(t),
&TokenTree::Delimited(_delimited_span, delimited, ref tts) => {
if !self.buf.is_empty() {
if next_space(&self.last_tok.kind) == SpaceState::Always {
self.add_separator();
} else {
self.add_other();
}
}
let parser = MacroArgParser::new();
let delimited_arg = parser.parse(tts.clone())?;
if self.is_meta_var {
self.add_repeat(delimited_arg, delimited, &mut iter)?;
self.is_meta_var = false;
} else {
self.add_delimited(delimited_arg, delimited);
}
}
}
self.set_last_tok(&tok);
}
if !self.buf.is_empty() {
self.add_other();
}
Some(self.result)
}
}
fn wrap_macro_args(
context: &RewriteContext<'_>,
args: &[ParsedMacroArg],
shape: Shape,
) -> Option<String> {
wrap_macro_args_inner(context, args, shape, false)
.or_else(|| wrap_macro_args_inner(context, args, shape, true))
}
fn wrap_macro_args_inner(
context: &RewriteContext<'_>,
args: &[ParsedMacroArg],
shape: Shape,
use_multiple_lines: bool,
) -> Option<String> {
let mut result = String::with_capacity(128);
let mut iter = args.iter().peekable();
let indent_str = shape.indent.to_string_with_newline(context.config);
while let Some(arg) = iter.next() {
result.push_str(&arg.rewrite(context, shape, use_multiple_lines)?);
if use_multiple_lines
&& (arg.kind.ends_with_space() || iter.peek().map_or(false, |a| a.kind.has_meta_var()))
{
if arg.kind.ends_with_space() {
result.pop();
}
result.push_str(&indent_str);
} else if let Some(next_arg) = iter.peek() {
let space_before_dollar =
!arg.kind.ends_with_space() && next_arg.kind.starts_with_dollar();
let space_before_brace = next_arg.kind.starts_with_brace();
if space_before_dollar || space_before_brace {
result.push(' ');
}
}
}
if !use_multiple_lines && result.len() >= shape.width {
None
} else {
Some(result)
}
}
fn format_macro_args(
context: &RewriteContext<'_>,
token_stream: TokenStream,
shape: Shape,
) -> Option<String> {
if !context.config.format_macro_matchers() {
let span = span_for_token_stream(&token_stream);
return Some(match span {
Some(span) => context.snippet(span).to_owned(),
None => String::new(),
});
}
let parsed_args = MacroArgParser::new().parse(token_stream)?;
wrap_macro_args(context, &parsed_args, shape)
}
fn span_for_token_stream(token_stream: &TokenStream) -> Option<Span> {
token_stream.trees().next().map(|tt| tt.span())
}
#[derive(Copy, Clone, PartialEq)]
enum SpaceState {
Never,
Punctuation,
Ident, Always,
}
fn force_space_before(tok: &TokenKind) -> bool {
debug!("tok: force_space_before {:?}", tok);
match tok {
TokenKind::Eq
| TokenKind::Lt
| TokenKind::Le
| TokenKind::EqEq
| TokenKind::Ne
| TokenKind::Ge
| TokenKind::Gt
| TokenKind::AndAnd
| TokenKind::OrOr
| TokenKind::Not
| TokenKind::Tilde
| TokenKind::BinOpEq(_)
| TokenKind::At
| TokenKind::RArrow
| TokenKind::LArrow
| TokenKind::FatArrow
| TokenKind::BinOp(_)
| TokenKind::Pound
| TokenKind::Dollar => true,
_ => false,
}
}
fn ident_like(tok: &Token) -> bool {
matches!(
tok.kind,
TokenKind::Ident(..) | TokenKind::Literal(..) | TokenKind::Lifetime(_)
)
}
fn next_space(tok: &TokenKind) -> SpaceState {
debug!("next_space: {:?}", tok);
match tok {
TokenKind::Not
| TokenKind::BinOp(BinOpToken::And)
| TokenKind::Tilde
| TokenKind::At
| TokenKind::Comma
| TokenKind::Dot
| TokenKind::DotDot
| TokenKind::DotDotDot
| TokenKind::DotDotEq
| TokenKind::Question => SpaceState::Punctuation,
TokenKind::ModSep
| TokenKind::Pound
| TokenKind::Dollar
| TokenKind::OpenDelim(_)
| TokenKind::CloseDelim(_) => SpaceState::Never,
TokenKind::Literal(..) | TokenKind::Ident(..) | TokenKind::Lifetime(_) => SpaceState::Ident,
_ => SpaceState::Always,
}
}
pub(crate) fn convert_try_mac(
mac: &ast::MacCall,
context: &RewriteContext<'_>,
) -> Option<ast::Expr> {
let path = &pprust::path_to_string(&mac.path);
if path == "try" || path == "r#try" {
let ts = mac.args.tokens.clone();
Some(ast::Expr {
id: ast::NodeId::root(), kind: ast::ExprKind::Try(parse_expr(context, ts)?),
span: mac.span(), attrs: ast::AttrVec::new(),
tokens: None,
})
} else {
None
}
}
pub(crate) fn macro_style(mac: &ast::MacCall, context: &RewriteContext<'_>) -> Delimiter {
let snippet = context.snippet(mac.span());
let paren_pos = snippet.find_uncommented("(").unwrap_or(usize::max_value());
let bracket_pos = snippet.find_uncommented("[").unwrap_or(usize::max_value());
let brace_pos = snippet.find_uncommented("{").unwrap_or(usize::max_value());
if paren_pos < bracket_pos && paren_pos < brace_pos {
Delimiter::Parenthesis
} else if bracket_pos < brace_pos {
Delimiter::Bracket
} else {
Delimiter::Brace
}
}
struct MacroParser<'a> {
toks: RefTokenTreeCursor<'a>,
}
impl<'a> MacroParser<'a> {
const fn new(toks: RefTokenTreeCursor<'a>) -> Self {
Self { toks }
}
fn parse(&mut self) -> Option<Macro> {
let mut branches = vec![];
while self.toks.look_ahead(1).is_some() {
branches.push(self.parse_branch()?);
}
Some(Macro { branches })
}
fn parse_branch(&mut self) -> Option<MacroBranch> {
let tok = self.toks.next()?;
let (lo, args_paren_kind) = match tok {
TokenTree::Token(..) => return None,
&TokenTree::Delimited(delimited_span, d, _) => (delimited_span.open.lo(), d),
};
let args = TokenStream::new(vec![tok.clone()]);
match self.toks.next()? {
TokenTree::Token(
Token {
kind: TokenKind::FatArrow,
..
},
_,
) => {}
_ => return None,
}
let (mut hi, body, whole_body) = match self.toks.next()? {
TokenTree::Token(..) => return None,
TokenTree::Delimited(delimited_span, ..) => {
let data = delimited_span.entire().data();
(
data.hi,
Span::new(
data.lo + BytePos(1),
data.hi - BytePos(1),
data.ctxt,
data.parent,
),
delimited_span.entire(),
)
}
};
if let Some(TokenTree::Token(
Token {
kind: TokenKind::Semi,
span,
},
_,
)) = self.toks.look_ahead(0)
{
hi = span.hi();
self.toks.next();
}
Some(MacroBranch {
span: mk_sp(lo, hi),
args_paren_kind,
args,
body,
whole_body,
})
}
}
struct Macro {
branches: Vec<MacroBranch>,
}
struct MacroBranch {
span: Span,
args_paren_kind: Delimiter,
args: TokenStream,
body: Span,
whole_body: Span,
}
impl MacroBranch {
fn rewrite(
&self,
context: &RewriteContext<'_>,
shape: Shape,
multi_branch_style: bool,
) -> Option<String> {
if self.args_paren_kind != Delimiter::Parenthesis {
return None;
}
let mut result = format_macro_args(context, self.args.clone(), shape.sub_width(5)?)?;
if multi_branch_style {
result += " =>";
}
if !context.config.format_macro_bodies() {
result += " ";
result += context.snippet(self.whole_body);
return Some(result);
}
let old_body = context.snippet(self.body).trim();
let (body_str, substs) = replace_names(old_body)?;
let has_block_body = old_body.starts_with('{');
let mut config = context.config.clone();
config.set().hide_parse_errors(true);
result += " {";
let body_indent = if has_block_body {
shape.indent
} else {
shape.indent.block_indent(&config)
};
let new_width = config.max_width() - body_indent.width();
config.set().max_width(new_width);
let new_body_snippet = match crate::format_snippet(&body_str, &config, true) {
Some(new_body) => new_body,
None => {
let new_width = new_width + config.tab_spaces();
config.set().max_width(new_width);
match crate::format_code_block(&body_str, &config, true) {
Some(new_body) => new_body,
None => return None,
}
}
};
if !filtered_str_fits(&new_body_snippet.snippet, config.max_width(), shape) {
return None;
}
let indent_str = body_indent.to_string(&config);
let mut new_body = LineClasses::new(new_body_snippet.snippet.trim_end())
.enumerate()
.fold(
(String::new(), true),
|(mut s, need_indent), (i, (kind, ref l))| {
if !is_empty_line(l)
&& need_indent
&& !new_body_snippet.is_line_non_formatted(i + 1)
{
s += &indent_str;
}
(s + l + "\n", indent_next_line(kind, l, &config))
},
)
.0;
for (old, new) in &substs {
if old_body.contains(new) {
debug!("rewrite_macro_def: bailing matching variable: `{}`", new);
return None;
}
new_body = new_body.replace(new, old);
}
if has_block_body {
result += new_body.trim();
} else if !new_body.is_empty() {
result += "\n";
result += &new_body;
result += &shape.indent.to_string(&config);
}
result += "}";
Some(result)
}
}
fn format_lazy_static(
context: &RewriteContext<'_>,
shape: Shape,
ts: TokenStream,
) -> Option<String> {
let mut result = String::with_capacity(1024);
let nested_shape = shape
.block_indent(context.config.tab_spaces())
.with_max_width(context.config);
result.push_str("lazy_static! {");
result.push_str(&nested_shape.indent.to_string_with_newline(context.config));
let parsed_elems = parse_lazy_static(context, ts)?;
let last = parsed_elems.len() - 1;
for (i, (vis, id, ty, expr)) in parsed_elems.iter().enumerate() {
let vis = crate::utils::format_visibility(context, vis);
let mut stmt = String::with_capacity(128);
stmt.push_str(&format!(
"{}static ref {}: {} =",
vis,
id,
ty.rewrite(context, nested_shape)?
));
result.push_str(&rewrite_assign_rhs(
context,
stmt,
&*expr,
&RhsAssignKind::Expr(&expr.kind, expr.span),
nested_shape.sub_width(1)?,
)?);
result.push(';');
if i != last {
result.push_str(&nested_shape.indent.to_string_with_newline(context.config));
}
}
result.push_str(&shape.indent.to_string_with_newline(context.config));
result.push('}');
Some(result)
}
fn rewrite_macro_with_items(
context: &RewriteContext<'_>,
items: &[MacroArg],
macro_name: &str,
shape: Shape,
style: Delimiter,
position: MacroPosition,
span: Span,
) -> Option<String> {
let (opener, closer) = match style {
Delimiter::Parenthesis => ("(", ")"),
Delimiter::Bracket => ("[", "]"),
Delimiter::Brace => (" {", "}"),
_ => return None,
};
let trailing_semicolon = match style {
Delimiter::Parenthesis | Delimiter::Bracket if position == MacroPosition::Item => ";",
_ => "",
};
let mut visitor = FmtVisitor::from_context(context);
visitor.block_indent = shape.indent.block_indent(context.config);
visitor.last_pos = context.snippet_provider.span_after(span, opener.trim());
for item in items {
let item = match item {
MacroArg::Item(item) => item,
_ => return None,
};
visitor.visit_item(item);
}
let mut result = String::with_capacity(256);
result.push_str(macro_name);
result.push_str(opener);
result.push_str(&visitor.block_indent.to_string_with_newline(context.config));
result.push_str(visitor.buffer.trim());
result.push_str(&shape.indent.to_string_with_newline(context.config));
result.push_str(closer);
result.push_str(trailing_semicolon);
Some(result)
}