445 lines
16 KiB
Rust
445 lines
16 KiB
Rust
// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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use rustc::session::Session;
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use generated_code;
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use std::cell::Cell;
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use std::env;
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use std::path::Path;
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use syntax::ast;
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use syntax::parse::lexer::{self, Reader, StringReader};
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use syntax::parse::token::{self, keywords, Token};
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use syntax_pos::*;
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#[derive(Clone)]
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pub struct SpanUtils<'a> {
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pub sess: &'a Session,
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// FIXME given that we clone SpanUtils all over the place, this err_count is
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// probably useless and any logic relying on it is bogus.
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pub err_count: Cell<isize>,
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}
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impl<'a> SpanUtils<'a> {
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pub fn new(sess: &'a Session) -> SpanUtils<'a> {
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SpanUtils {
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sess: sess,
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err_count: Cell::new(0),
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}
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}
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pub fn make_path_string(file_name: &str) -> String {
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let path = Path::new(file_name);
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if path.is_absolute() {
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path.clone().display().to_string()
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} else {
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env::current_dir().unwrap().join(&path).display().to_string()
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}
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}
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// sub_span starts at span.lo, so we need to adjust the positions etc.
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// If sub_span is None, we don't need to adjust.
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pub fn make_sub_span(&self, span: Span, sub_span: Option<Span>) -> Option<Span> {
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match sub_span {
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None => None,
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Some(sub) => {
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let FileMapAndBytePos {fm, pos} = self.sess.codemap().lookup_byte_offset(span.lo);
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let base = pos + fm.start_pos;
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Some(Span {
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lo: base + self.sess.codemap().lookup_byte_offset(sub.lo).pos,
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hi: base + self.sess.codemap().lookup_byte_offset(sub.hi).pos,
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expn_id: span.expn_id,
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})
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}
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}
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}
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pub fn snippet(&self, span: Span) -> String {
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match self.sess.codemap().span_to_snippet(span) {
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Ok(s) => s,
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Err(_) => String::new(),
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}
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}
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pub fn retokenise_span(&self, span: Span) -> StringReader<'a> {
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// sadness - we don't have spans for sub-expressions nor access to the tokens
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// so in order to get extents for the function name itself (which dxr expects)
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// we need to re-tokenise the fn definition
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// Note: this is a bit awful - it adds the contents of span to the end of
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// the codemap as a new filemap. This is mostly OK, but means we should
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// not iterate over the codemap. Also, any spans over the new filemap
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// are incompatible with spans over other filemaps.
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let filemap = self.sess
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.codemap()
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.new_filemap(String::from("<anon-dxr>"), None, self.snippet(span));
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let s = self.sess;
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lexer::StringReader::new(s.diagnostic(), filemap)
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}
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// Re-parses a path and returns the span for the last identifier in the path
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pub fn span_for_last_ident(&self, span: Span) -> Option<Span> {
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let mut result = None;
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let mut toks = self.retokenise_span(span);
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let mut bracket_count = 0;
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loop {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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return self.make_sub_span(span, result)
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}
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if bracket_count == 0 && (ts.tok.is_ident() || ts.tok.is_keyword(keywords::SelfValue)) {
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result = Some(ts.sp);
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}
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bracket_count += match ts.tok {
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token::Lt => 1,
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token::Gt => -1,
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token::BinOp(token::Shr) => -2,
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_ => 0,
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}
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}
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}
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// Return the span for the first identifier in the path.
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pub fn span_for_first_ident(&self, span: Span) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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let mut bracket_count = 0;
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loop {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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return None;
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}
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if bracket_count == 0 && (ts.tok.is_ident() || ts.tok.is_keyword(keywords::SelfValue)) {
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return self.make_sub_span(span, Some(ts.sp));
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}
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bracket_count += match ts.tok {
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token::Lt => 1,
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token::Gt => -1,
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token::BinOp(token::Shr) => -2,
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_ => 0,
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}
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}
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}
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// Return the span for the last ident before a `(` or `<` or '::<' and outside any
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// any brackets, or the last span.
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pub fn sub_span_for_meth_name(&self, span: Span) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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let mut prev = toks.real_token();
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let mut result = None;
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let mut bracket_count = 0;
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let mut last_span = None;
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while prev.tok != token::Eof {
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last_span = None;
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let mut next = toks.real_token();
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if (next.tok == token::OpenDelim(token::Paren) || next.tok == token::Lt) &&
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bracket_count == 0 && prev.tok.is_ident() {
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result = Some(prev.sp);
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}
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if bracket_count == 0 && next.tok == token::ModSep {
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let old = prev;
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prev = next;
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next = toks.real_token();
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if next.tok == token::Lt && old.tok.is_ident() {
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result = Some(old.sp);
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}
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}
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bracket_count += match prev.tok {
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token::OpenDelim(token::Paren) | token::Lt => 1,
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token::CloseDelim(token::Paren) | token::Gt => -1,
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token::BinOp(token::Shr) => -2,
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_ => 0,
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};
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if prev.tok.is_ident() && bracket_count == 0 {
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last_span = Some(prev.sp);
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}
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prev = next;
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}
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if result.is_none() && last_span.is_some() {
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return self.make_sub_span(span, last_span);
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}
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return self.make_sub_span(span, result);
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}
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// Return the span for the last ident before a `<` and outside any
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// brackets, or the last span.
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pub fn sub_span_for_type_name(&self, span: Span) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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let mut prev = toks.real_token();
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let mut result = None;
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let mut bracket_count = 0;
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loop {
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let next = toks.real_token();
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if (next.tok == token::Lt || next.tok == token::Colon) && bracket_count == 0 &&
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prev.tok.is_ident() {
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result = Some(prev.sp);
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}
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bracket_count += match prev.tok {
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token::Lt => 1,
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token::Gt => -1,
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token::BinOp(token::Shl) => 2,
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token::BinOp(token::Shr) => -2,
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_ => 0,
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};
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if next.tok == token::Eof {
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break;
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}
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prev = next;
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}
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if bracket_count != 0 {
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let loc = self.sess.codemap().lookup_char_pos(span.lo);
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span_bug!(span,
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"Mis-counted brackets when breaking path? Parsing '{}' \
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in {}, line {}",
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self.snippet(span),
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loc.file.name,
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loc.line);
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}
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if result.is_none() && prev.tok.is_ident() && bracket_count == 0 {
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return self.make_sub_span(span, Some(prev.sp));
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}
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self.make_sub_span(span, result)
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}
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// Reparse span and return an owned vector of sub spans of the first limit
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// identifier tokens in the given nesting level.
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// example with Foo<Bar<T,V>, Bar<T,V>>
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// Nesting = 0: all idents outside of brackets: [Foo]
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// Nesting = 1: idents within one level of brackets: [Bar, Bar]
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pub fn spans_with_brackets(&self, span: Span, nesting: isize, limit: isize) -> Vec<Span> {
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let mut result: Vec<Span> = vec!();
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let mut toks = self.retokenise_span(span);
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// We keep track of how many brackets we're nested in
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let mut bracket_count: isize = 0;
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let mut found_ufcs_sep = false;
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loop {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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if bracket_count != 0 {
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if generated_code(span) {
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return vec!();
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}
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let loc = self.sess.codemap().lookup_char_pos(span.lo);
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span_bug!(span,
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"Mis-counted brackets when breaking path? \
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Parsing '{}' in {}, line {}",
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self.snippet(span),
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loc.file.name,
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loc.line);
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}
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return result
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}
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if (result.len() as isize) == limit {
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return result;
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}
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bracket_count += match ts.tok {
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token::Lt => 1,
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token::Gt => -1,
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token::BinOp(token::Shl) => 2,
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token::BinOp(token::Shr) => -2,
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_ => 0,
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};
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// Ignore the `>::` in `<Type as Trait>::AssocTy`.
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// The root cause of this hack is that the AST representation of
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// qpaths is horrible. It treats <A as B>::C as a path with two
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// segments, B and C and notes that there is also a self type A at
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// position 0. Because we don't have spans for individual idents,
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// only the whole path, we have to iterate over the tokens in the
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// path, trying to pull out the non-nested idents (e.g., avoiding 'a
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// in `<A as B<'a>>::C`). So we end up with a span for `B>::C` from
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// the start of the first ident to the end of the path.
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if !found_ufcs_sep && bracket_count == -1 {
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found_ufcs_sep = true;
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bracket_count += 1;
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}
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if ts.tok.is_ident() && bracket_count == nesting {
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result.push(self.make_sub_span(span, Some(ts.sp)).unwrap());
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}
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}
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}
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pub fn sub_span_before_token(&self, span: Span, tok: Token) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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let mut prev = toks.real_token();
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loop {
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if prev.tok == token::Eof {
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return None;
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}
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let next = toks.real_token();
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if next.tok == tok {
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return self.make_sub_span(span, Some(prev.sp));
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}
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prev = next;
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}
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}
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pub fn sub_span_of_token(&self, span: Span, tok: Token) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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loop {
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let next = toks.real_token();
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if next.tok == token::Eof {
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return None;
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}
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if next.tok == tok {
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return self.make_sub_span(span, Some(next.sp));
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}
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}
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}
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pub fn sub_span_after_keyword(&self, span: Span, keyword: keywords::Keyword) -> Option<Span> {
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self.sub_span_after(span, |t| t.is_keyword(keyword))
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}
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pub fn sub_span_after_token(&self, span: Span, tok: Token) -> Option<Span> {
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self.sub_span_after(span, |t| t == tok)
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}
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fn sub_span_after<F: Fn(Token) -> bool>(&self, span: Span, f: F) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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loop {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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return None;
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}
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if f(ts.tok) {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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return None
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} else {
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return self.make_sub_span(span, Some(ts.sp));
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}
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}
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}
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}
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// Returns a list of the spans of idents in a path.
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// E.g., For foo::bar<x,t>::baz, we return [foo, bar, baz] (well, their spans)
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pub fn spans_for_path_segments(&self, path: &ast::Path) -> Vec<Span> {
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self.spans_with_brackets(path.span, 0, -1)
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}
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// Return an owned vector of the subspans of the param identifier
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// tokens found in span.
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pub fn spans_for_ty_params(&self, span: Span, number: isize) -> Vec<Span> {
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// Type params are nested within one level of brackets:
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// i.e. we want Vec<A, B> from Foo<A, B<T,U>>
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self.spans_with_brackets(span, 1, number)
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}
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pub fn report_span_err(&self, kind: &str, span: Span) {
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let loc = self.sess.codemap().lookup_char_pos(span.lo);
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info!("({}) Could not find sub_span in `{}` in {}, line {}",
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kind,
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self.snippet(span),
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loc.file.name,
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loc.line);
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self.err_count.set(self.err_count.get() + 1);
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if self.err_count.get() > 1000 {
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bug!("span errors reached 1000, giving up");
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}
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}
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// Return the name for a macro definition (identifier after first `!`)
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pub fn span_for_macro_def_name(&self, span: Span) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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loop {
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let ts = toks.real_token();
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if ts.tok == token::Eof {
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return None;
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}
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if ts.tok == token::Not {
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let ts = toks.real_token();
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if ts.tok.is_ident() {
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return self.make_sub_span(span, Some(ts.sp));
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} else {
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return None;
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}
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}
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}
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}
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// Return the name for a macro use (identifier before first `!`).
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pub fn span_for_macro_use_name(&self, span:Span) -> Option<Span> {
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let mut toks = self.retokenise_span(span);
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let mut prev = toks.real_token();
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loop {
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if prev.tok == token::Eof {
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return None;
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}
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let ts = toks.real_token();
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if ts.tok == token::Not {
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if prev.tok.is_ident() {
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return self.make_sub_span(span, Some(prev.sp));
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} else {
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return None;
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}
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}
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prev = ts;
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}
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}
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/// Return true if the span is generated code, and
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/// it is not a subspan of the root callsite.
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///
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/// Used to filter out spans of minimal value,
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/// such as references to macro internal variables.
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pub fn filter_generated(&self, sub_span: Option<Span>, parent: Span) -> bool {
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if !generated_code(parent) {
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if sub_span.is_none() {
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// Edge case - this occurs on generated code with incorrect expansion info.
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return true;
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}
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return false;
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}
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// If sub_span is none, filter out generated code.
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if sub_span.is_none() {
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return true;
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}
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//If the span comes from a fake filemap, filter it.
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if !self.sess.codemap().lookup_char_pos(parent.lo).file.is_real_file() {
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return true;
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}
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// Otherwise, a generated span is deemed invalid if it is not a sub-span of the root
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// callsite. This filters out macro internal variables and most malformed spans.
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let span = self.sess.codemap().source_callsite(parent);
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!(span.contains(parent))
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}
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}
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macro_rules! filter {
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($util: expr, $span: ident, $parent: expr, None) => {
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if $util.filter_generated($span, $parent) {
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return None;
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}
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};
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($util: expr, $span: ident, $parent: expr) => {
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if $util.filter_generated($span, $parent) {
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return;
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}
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};
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}
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