// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. /*! The CodeMap tracks all the source code used within a single crate, mapping from integer byte positions to the original source code location. Each bit of source parsed during crate parsing (typically files, in-memory strings, or various bits of macro expansion) cover a continuous range of bytes in the CodeMap and are represented by FileMaps. Byte positions are stored in `spans` and used pervasively in the compiler. They are absolute positions within the CodeMap, which upon request can be converted to line and column information, source code snippets, etc. */ use std::cell::RefCell; use std::cmp; use extra::serialize::{Encodable, Decodable, Encoder, Decoder}; pub trait Pos { fn from_uint(n: uint) -> Self; fn to_uint(&self) -> uint; } /// A byte offset. Keep this small (currently 32-bits), as AST contains /// a lot of them. #[deriving(Clone, Eq, IterBytes, Ord)] pub struct BytePos(u32); /// A character offset. Because of multibyte utf8 characters, a byte offset /// is not equivalent to a character offset. The CodeMap will convert BytePos /// values to CharPos values as necessary. #[deriving(Eq,IterBytes, Ord)] pub struct CharPos(uint); // XXX: Lots of boilerplate in these impls, but so far my attempts to fix // have been unsuccessful impl Pos for BytePos { fn from_uint(n: uint) -> BytePos { BytePos(n as u32) } fn to_uint(&self) -> uint { let BytePos(n) = *self; n as uint } } impl Add for BytePos { fn add(&self, rhs: &BytePos) -> BytePos { BytePos((self.to_uint() + rhs.to_uint()) as u32) } } impl Sub for BytePos { fn sub(&self, rhs: &BytePos) -> BytePos { BytePos((self.to_uint() - rhs.to_uint()) as u32) } } impl Pos for CharPos { fn from_uint(n: uint) -> CharPos { CharPos(n) } fn to_uint(&self) -> uint { let CharPos(n) = *self; n } } impl Add for CharPos { fn add(&self, rhs: &CharPos) -> CharPos { CharPos(self.to_uint() + rhs.to_uint()) } } impl Sub for CharPos { fn sub(&self, rhs: &CharPos) -> CharPos { CharPos(self.to_uint() - rhs.to_uint()) } } /** Spans represent a region of code, used for error reporting. Positions in spans are *absolute* positions from the beginning of the codemap, not positions relative to FileMaps. Methods on the CodeMap can be used to relate spans back to the original source. */ #[deriving(Clone, IterBytes)] pub struct Span { lo: BytePos, hi: BytePos, expn_info: Option<@ExpnInfo> } pub static DUMMY_SP: Span = Span { lo: BytePos(0), hi: BytePos(0), expn_info: None }; #[deriving(Clone, Eq, Encodable, Decodable, IterBytes)] pub struct Spanned { node: T, span: Span, } impl cmp::Eq for Span { fn eq(&self, other: &Span) -> bool { return (*self).lo == (*other).lo && (*self).hi == (*other).hi; } fn ne(&self, other: &Span) -> bool { !(*self).eq(other) } } impl Encodable for Span { /* Note #1972 -- spans are encoded but not decoded */ fn encode(&self, s: &mut S) { s.emit_nil() } } impl Decodable for Span { fn decode(_d: &mut D) -> Span { DUMMY_SP } } pub fn spanned(lo: BytePos, hi: BytePos, t: T) -> Spanned { respan(mk_sp(lo, hi), t) } pub fn respan(sp: Span, t: T) -> Spanned { Spanned {node: t, span: sp} } pub fn dummy_spanned(t: T) -> Spanned { respan(DUMMY_SP, t) } /* assuming that we're not in macro expansion */ pub fn mk_sp(lo: BytePos, hi: BytePos) -> Span { Span {lo: lo, hi: hi, expn_info: None} } /// A source code location used for error reporting pub struct Loc { /// Information about the original source file: @FileMap, /// The (1-based) line number line: uint, /// The (0-based) column offset col: CharPos } /// A source code location used as the result of lookup_char_pos_adj // Actually, *none* of the clients use the filename *or* file field; // perhaps they should just be removed. pub struct LocWithOpt { filename: FileName, line: uint, col: CharPos, file: Option<@FileMap>, } // used to be structural records. Better names, anyone? pub struct FileMapAndLine {fm: @FileMap, line: uint} pub struct FileMapAndBytePos {fm: @FileMap, pos: BytePos} #[deriving(IterBytes)] pub enum MacroFormat { // e.g. #[deriving(...)] MacroAttribute, // e.g. `format!()` MacroBang } #[deriving(IterBytes)] pub struct NameAndSpan { name: @str, // the format with which the macro was invoked. format: MacroFormat, span: Option } /// Extra information for tracking macro expansion of spans #[deriving(IterBytes)] pub struct ExpnInfo { call_site: Span, callee: NameAndSpan } pub type FileName = @str; pub struct FileLines { file: @FileMap, lines: ~[uint] } /// Identifies an offset of a multi-byte character in a FileMap pub struct MultiByteChar { /// The absolute offset of the character in the CodeMap pos: BytePos, /// The number of bytes, >=2 bytes: uint, } /// A single source in the CodeMap pub struct FileMap { /// The name of the file that the source came from, source that doesn't /// originate from files has names between angle brackets by convention, /// e.g. `` name: FileName, /// The complete source code src: @str, /// The start position of this source in the CodeMap start_pos: BytePos, /// Locations of lines beginnings in the source code lines: RefCell<~[BytePos]>, /// Locations of multi-byte characters in the source code multibyte_chars: RefCell<~[MultiByteChar]>, } impl FileMap { // EFFECT: register a start-of-line offset in the // table of line-beginnings. // UNCHECKED INVARIANT: these offsets must be added in the right // order and must be in the right places; there is shared knowledge // about what ends a line between this file and parse.rs pub fn next_line(&self, pos: BytePos) { // the new charpos must be > the last one (or it's the first one). let mut lines = self.lines.borrow_mut();; let line_len = lines.get().len(); assert!(line_len == 0 || (lines.get()[line_len - 1] < pos)) lines.get().push(pos); } // get a line from the list of pre-computed line-beginnings pub fn get_line(&self, line: int) -> ~str { let mut lines = self.lines.borrow_mut(); let begin: BytePos = lines.get()[line] - self.start_pos; let begin = begin.to_uint(); let slice = self.src.slice_from(begin); match slice.find('\n') { Some(e) => slice.slice_to(e).to_owned(), None => slice.to_owned() } } pub fn record_multibyte_char(&self, pos: BytePos, bytes: uint) { assert!(bytes >=2 && bytes <= 4); let mbc = MultiByteChar { pos: pos, bytes: bytes, }; let mut multibyte_chars = self.multibyte_chars.borrow_mut(); multibyte_chars.get().push(mbc); } pub fn is_real_file(&self) -> bool { !(self.name.starts_with("<") && self.name.ends_with(">")) } } pub struct CodeMap { files: RefCell<~[@FileMap]> } impl CodeMap { pub fn new() -> CodeMap { CodeMap { files: RefCell::new(~[]), } } pub fn new_filemap(&self, filename: FileName, src: @str) -> @FileMap { let mut files = self.files.borrow_mut(); let start_pos = if files.get().len() == 0 { 0 } else { let last_start = files.get().last().start_pos.to_uint(); let last_len = files.get().last().src.len(); last_start + last_len }; let filemap = @FileMap { name: filename, src: src, start_pos: Pos::from_uint(start_pos), lines: RefCell::new(~[]), multibyte_chars: RefCell::new(~[]), }; files.get().push(filemap); return filemap; } pub fn mk_substr_filename(&self, sp: Span) -> ~str { let pos = self.lookup_char_pos(sp.lo); return format!("<{}:{}:{}>", pos.file.name, pos.line, pos.col.to_uint() + 1) } /// Lookup source information about a BytePos pub fn lookup_char_pos(&self, pos: BytePos) -> Loc { return self.lookup_pos(pos); } pub fn lookup_char_pos_adj(&self, pos: BytePos) -> LocWithOpt { let loc = self.lookup_char_pos(pos); LocWithOpt { filename: loc.file.name, line: loc.line, col: loc.col, file: Some(loc.file) } } pub fn adjust_span(&self, sp: Span) -> Span { sp } pub fn span_to_str(&self, sp: Span) -> ~str { { let files = self.files.borrow(); if files.get().len() == 0 && sp == DUMMY_SP { return ~"no-location"; } } let lo = self.lookup_char_pos_adj(sp.lo); let hi = self.lookup_char_pos_adj(sp.hi); return format!("{}:{}:{}: {}:{}", lo.filename, lo.line, lo.col.to_uint() + 1, hi.line, hi.col.to_uint() + 1) } pub fn span_to_filename(&self, sp: Span) -> FileName { let lo = self.lookup_char_pos(sp.lo); lo.file.name } pub fn span_to_lines(&self, sp: Span) -> @FileLines { let lo = self.lookup_char_pos(sp.lo); let hi = self.lookup_char_pos(sp.hi); let mut lines = ~[]; for i in range(lo.line - 1u, hi.line as uint) { lines.push(i); }; return @FileLines {file: lo.file, lines: lines}; } pub fn span_to_snippet(&self, sp: Span) -> Option<~str> { let begin = self.lookup_byte_offset(sp.lo); let end = self.lookup_byte_offset(sp.hi); // FIXME #8256: this used to be an assert but whatever precondition // it's testing isn't true for all spans in the AST, so to allow the // caller to not have to fail (and it can't catch it since the CodeMap // isn't sendable), return None if begin.fm.start_pos != end.fm.start_pos { None } else { Some(begin.fm.src.slice( begin.pos.to_uint(), end.pos.to_uint()).to_owned()) } } pub fn get_filemap(&self, filename: &str) -> @FileMap { let files = self.files.borrow(); for fm in files.get().iter() { if filename == fm.name { return *fm } } //XXjdm the following triggers a mismatched type bug // (or expected function, found _|_) fail!(); // ("asking for " + filename + " which we don't know about"); } } impl CodeMap { fn lookup_filemap_idx(&self, pos: BytePos) -> uint { let files = self.files.borrow(); let files = files.get(); let len = files.len(); let mut a = 0u; let mut b = len; while b - a > 1u { let m = (a + b) / 2u; if files[m].start_pos > pos { b = m; } else { a = m; } } if (a >= len) { fail!("position {} does not resolve to a source location", pos.to_uint()) } return a; } fn lookup_line(&self, pos: BytePos) -> FileMapAndLine { let idx = self.lookup_filemap_idx(pos); let files = self.files.borrow(); let f = files.get()[idx]; let mut a = 0u; let mut lines = f.lines.borrow_mut(); let mut b = lines.get().len(); while b - a > 1u { let m = (a + b) / 2u; if lines.get()[m] > pos { b = m; } else { a = m; } } return FileMapAndLine {fm: f, line: a}; } fn lookup_pos(&self, pos: BytePos) -> Loc { let FileMapAndLine {fm: f, line: a} = self.lookup_line(pos); let line = a + 1u; // Line numbers start at 1 let chpos = self.bytepos_to_local_charpos(pos); let mut lines = f.lines.borrow_mut(); let linebpos = lines.get()[a]; let linechpos = self.bytepos_to_local_charpos(linebpos); debug!("codemap: byte pos {:?} is on the line at byte pos {:?}", pos, linebpos); debug!("codemap: char pos {:?} is on the line at char pos {:?}", chpos, linechpos); debug!("codemap: byte is on line: {:?}", line); assert!(chpos >= linechpos); return Loc { file: f, line: line, col: chpos - linechpos }; } fn lookup_byte_offset(&self, bpos: BytePos) -> FileMapAndBytePos { let idx = self.lookup_filemap_idx(bpos); let files = self.files.borrow(); let fm = files.get()[idx]; let offset = bpos - fm.start_pos; return FileMapAndBytePos {fm: fm, pos: offset}; } // Converts an absolute BytePos to a CharPos relative to the file it is // located in fn bytepos_to_local_charpos(&self, bpos: BytePos) -> CharPos { debug!("codemap: converting {:?} to char pos", bpos); let idx = self.lookup_filemap_idx(bpos); let files = self.files.borrow(); let map = files.get()[idx]; // The number of extra bytes due to multibyte chars in the FileMap let mut total_extra_bytes = 0; let multibyte_chars = map.multibyte_chars.borrow(); for mbc in multibyte_chars.get().iter() { debug!("codemap: {:?}-byte char at {:?}", mbc.bytes, mbc.pos); if mbc.pos < bpos { total_extra_bytes += mbc.bytes; // We should never see a byte position in the middle of a // character assert!(bpos == mbc.pos || bpos.to_uint() >= mbc.pos.to_uint() + mbc.bytes); } else { break; } } CharPos(bpos.to_uint() - total_extra_bytes) } } #[cfg(test)] mod test { use super::*; #[test] fn t1 () { let cm = CodeMap::new(); let fm = cm.new_filemap(@"blork.rs",@"first line.\nsecond line"); fm.next_line(BytePos(0)); assert_eq!(&fm.get_line(0),&~"first line."); // TESTING BROKEN BEHAVIOR: fm.next_line(BytePos(10)); assert_eq!(&fm.get_line(1),&~"."); } #[test] #[should_fail] fn t2 () { let cm = CodeMap::new(); let fm = cm.new_filemap(@"blork.rs",@"first line.\nsecond line"); // TESTING *REALLY* BROKEN BEHAVIOR: fm.next_line(BytePos(0)); fm.next_line(BytePos(10)); fm.next_line(BytePos(2)); } }