rust/src/librustc/driver/pretty.rs

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// Copyright 2014 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! The various pretty print routines.
use back::link;
use driver::config;
use driver::driver::{mod, CrateAnalysis};
use driver::session::Session;
use middle::ty;
use middle::borrowck::{mod, FnPartsWithCFG};
use middle::borrowck::graphviz as borrowck_dot;
use middle::cfg;
use middle::cfg::graphviz::LabelledCFG;
use util::ppaux;
use syntax::ast;
use syntax::ast_map::{mod, blocks, NodePrinter};
use syntax::print::{pp, pprust};
use graphviz as dot;
use std::io::{mod, MemReader};
use std::from_str::FromStr;
use std::option;
use arena::TypedArena;
#[deriving(PartialEq, Show)]
pub enum PpSourceMode {
PpmNormal,
PpmExpanded,
PpmTyped,
PpmIdentified,
PpmExpandedIdentified,
PpmExpandedHygiene,
}
#[deriving(PartialEq, Show)]
pub enum PpMode {
PpmSource(PpSourceMode),
PpmFlowGraph,
}
pub fn parse_pretty(sess: &Session, name: &str) -> (PpMode, Option<UserIdentifiedItem>) {
let mut split = name.splitn(1, '=');
let first = split.next().unwrap();
let opt_second = split.next();
let first = match first {
"normal" => PpmSource(PpmNormal),
"expanded" => PpmSource(PpmExpanded),
"typed" => PpmSource(PpmTyped),
"expanded,identified" => PpmSource(PpmExpandedIdentified),
"expanded,hygiene" => PpmSource(PpmExpandedHygiene),
"identified" => PpmSource(PpmIdentified),
"flowgraph" => PpmFlowGraph,
_ => {
sess.fatal(format!(
"argument to `pretty` must be one of `normal`, \
`expanded`, `flowgraph=<nodeid>`, `typed`, `identified`, \
or `expanded,identified`; got {}", name).as_slice());
}
};
let opt_second = opt_second.and_then::<UserIdentifiedItem>(from_str);
(first, opt_second)
}
// This slightly awkward construction is to allow for each PpMode to
// choose whether it needs to do analyses (which can consume the
// Session) and then pass through the session (now attached to the
// analysis results) on to the chosen pretty-printer, along with the
// `&PpAnn` object.
//
// Note that since the `&PrinterSupport` is freshly constructed on each
// call, it would not make sense to try to attach the lifetime of `self`
// to the lifetime of the `&PrinterObject`.
//
// (The `use_once_payload` is working around the current lack of once
// functions in the compiler.)
impl PpSourceMode {
/// Constructs a `PrinterSupport` object and passes it to `f`.
fn call_with_pp_support<A,B>(&self,
sess: Session,
krate: &ast::Crate,
ast_map: Option<ast_map::Map>,
id: String,
payload: B,
f: |&PrinterSupport, B| -> A) -> A {
match *self {
PpmNormal | PpmExpanded => {
let annotation = NoAnn { sess: sess, ast_map: ast_map };
f(&annotation, payload)
}
PpmIdentified | PpmExpandedIdentified => {
let annotation = IdentifiedAnnotation { sess: sess, ast_map: ast_map };
f(&annotation, payload)
}
PpmExpandedHygiene => {
let annotation = HygieneAnnotation { sess: sess, ast_map: ast_map };
f(&annotation, payload)
}
PpmTyped => {
let ast_map = ast_map.expect("--pretty=typed missing ast_map");
let type_arena = TypedArena::new();
let analysis = driver::phase_3_run_analysis_passes(sess, krate, ast_map,
&type_arena, id);
let annotation = TypedAnnotation { analysis: analysis };
f(&annotation, payload)
}
}
}
}
trait SessionCarrier {
/// Provides a uniform interface for re-extracting a reference to a
/// `Session` from a value that now owns it.
fn sess<'a>(&'a self) -> &'a Session;
}
trait AstMapCarrier {
/// Provides a uniform interface for re-extracting a reference to an
/// `ast_map::Map` from a value that now owns it.
fn ast_map<'a>(&'a self) -> Option<&'a ast_map::Map>;
}
trait PrinterSupport : SessionCarrier + AstMapCarrier {
/// Produces the pretty-print annotation object.
///
/// Usually implemented via `self as &pprust::PpAnn`.
///
/// (Rust does not yet support upcasting from a trait object to
/// an object for one of its super-traits.)
fn pp_ann<'a>(&'a self) -> &'a pprust::PpAnn;
}
struct NoAnn {
sess: Session,
ast_map: Option<ast_map::Map>,
}
impl PrinterSupport for NoAnn {
fn pp_ann<'a>(&'a self) -> &'a pprust::PpAnn { self as &pprust::PpAnn }
}
impl SessionCarrier for NoAnn {
fn sess<'a>(&'a self) -> &'a Session { &self.sess }
}
impl AstMapCarrier for NoAnn {
fn ast_map<'a>(&'a self) -> Option<&'a ast_map::Map> {
self.ast_map.as_ref()
}
}
impl pprust::PpAnn for NoAnn {}
struct IdentifiedAnnotation {
sess: Session,
ast_map: Option<ast_map::Map>,
}
impl PrinterSupport for IdentifiedAnnotation {
fn pp_ann<'a>(&'a self) -> &'a pprust::PpAnn { self as &pprust::PpAnn }
}
impl SessionCarrier for IdentifiedAnnotation {
fn sess<'a>(&'a self) -> &'a Session { &self.sess }
}
impl AstMapCarrier for IdentifiedAnnotation {
fn ast_map<'a>(&'a self) -> Option<&'a ast_map::Map> {
self.ast_map.as_ref()
}
}
impl pprust::PpAnn for IdentifiedAnnotation {
fn pre(&self,
s: &mut pprust::State,
node: pprust::AnnNode) -> io::IoResult<()> {
match node {
pprust::NodeExpr(_) => s.popen(),
_ => Ok(())
}
}
fn post(&self,
s: &mut pprust::State,
node: pprust::AnnNode) -> io::IoResult<()> {
match node {
pprust::NodeIdent(_) | pprust::NodeName(_) => Ok(()),
pprust::NodeItem(item) => {
try!(pp::space(&mut s.s));
s.synth_comment(item.id.to_string())
}
pprust::NodeBlock(blk) => {
try!(pp::space(&mut s.s));
s.synth_comment(format!("block {}", blk.id))
}
pprust::NodeExpr(expr) => {
try!(pp::space(&mut s.s));
try!(s.synth_comment(expr.id.to_string()));
s.pclose()
}
pprust::NodePat(pat) => {
try!(pp::space(&mut s.s));
s.synth_comment(format!("pat {}", pat.id))
}
}
}
}
struct HygieneAnnotation {
sess: Session,
ast_map: Option<ast_map::Map>,
}
impl PrinterSupport for HygieneAnnotation {
fn pp_ann<'a>(&'a self) -> &'a pprust::PpAnn { self as &pprust::PpAnn }
}
impl SessionCarrier for HygieneAnnotation {
fn sess<'a>(&'a self) -> &'a Session { &self.sess }
}
impl AstMapCarrier for HygieneAnnotation {
fn ast_map<'a>(&'a self) -> Option<&'a ast_map::Map> {
self.ast_map.as_ref()
}
}
impl pprust::PpAnn for HygieneAnnotation {
fn post(&self,
s: &mut pprust::State,
node: pprust::AnnNode) -> io::IoResult<()> {
match node {
pprust::NodeIdent(&ast::Ident { name: ast::Name(nm), ctxt }) => {
try!(pp::space(&mut s.s));
// FIXME #16420: this doesn't display the connections
// between syntax contexts
s.synth_comment(format!("{}#{}", nm, ctxt))
}
pprust::NodeName(&ast::Name(nm)) => {
try!(pp::space(&mut s.s));
s.synth_comment(nm.to_string())
}
_ => Ok(())
}
}
}
struct TypedAnnotation {
analysis: CrateAnalysis,
}
impl PrinterSupport for TypedAnnotation {
fn pp_ann<'a>(&'a self) -> &'a pprust::PpAnn { self as &pprust::PpAnn }
}
impl SessionCarrier for TypedAnnotation {
fn sess<'a>(&'a self) -> &'a Session { &self.analysis.ty_cx.sess }
}
impl AstMapCarrier for TypedAnnotation {
fn ast_map<'a>(&'a self) -> Option<&'a ast_map::Map> {
Some(&self.analysis.ty_cx.map)
}
}
impl pprust::PpAnn for TypedAnnotation {
fn pre(&self,
s: &mut pprust::State,
node: pprust::AnnNode) -> io::IoResult<()> {
match node {
pprust::NodeExpr(_) => s.popen(),
_ => Ok(())
}
}
fn post(&self,
s: &mut pprust::State,
node: pprust::AnnNode) -> io::IoResult<()> {
let tcx = &self.analysis.ty_cx;
match node {
pprust::NodeExpr(expr) => {
try!(pp::space(&mut s.s));
try!(pp::word(&mut s.s, "as"));
try!(pp::space(&mut s.s));
try!(pp::word(&mut s.s,
ppaux::ty_to_string(
tcx,
ty::expr_ty(tcx, expr)).as_slice()));
s.pclose()
}
_ => Ok(())
}
}
}
fn gather_flowgraph_variants(sess: &Session) -> Vec<borrowck_dot::Variant> {
let print_loans = config::FLOWGRAPH_PRINT_LOANS;
let print_moves = config::FLOWGRAPH_PRINT_MOVES;
let print_assigns = config::FLOWGRAPH_PRINT_ASSIGNS;
let print_all = config::FLOWGRAPH_PRINT_ALL;
let opt = |print_which| sess.debugging_opt(print_which);
let mut variants = Vec::new();
if opt(print_all) || opt(print_loans) {
variants.push(borrowck_dot::Loans);
}
if opt(print_all) || opt(print_moves) {
variants.push(borrowck_dot::Moves);
}
if opt(print_all) || opt(print_assigns) {
variants.push(borrowck_dot::Assigns);
}
variants
}
#[deriving(Clone, Show)]
pub enum UserIdentifiedItem {
ItemViaNode(ast::NodeId),
ItemViaPath(Vec<String>),
}
impl FromStr for UserIdentifiedItem {
fn from_str(s: &str) -> Option<UserIdentifiedItem> {
let extract_path_parts = || {
let v : Vec<_> = s.split_str("::")
.map(|x|x.to_string())
.collect();
Some(ItemViaPath(v))
};
from_str(s).map(ItemViaNode).or_else(extract_path_parts)
}
}
enum NodesMatchingUII<'a> {
NodesMatchingDirect(option::Item<ast::NodeId>),
NodesMatchingSuffix(ast_map::NodesMatchingSuffix<'a, String>),
}
impl<'a> Iterator<ast::NodeId> for NodesMatchingUII<'a> {
fn next(&mut self) -> Option<ast::NodeId> {
match self {
&NodesMatchingDirect(ref mut iter) => iter.next(),
&NodesMatchingSuffix(ref mut iter) => iter.next(),
}
}
}
impl UserIdentifiedItem {
fn reconstructed_input(&self) -> String {
match *self {
ItemViaNode(node_id) => node_id.to_string(),
ItemViaPath(ref parts) => parts.connect("::"),
}
}
fn all_matching_node_ids<'a>(&'a self, map: &'a ast_map::Map) -> NodesMatchingUII<'a> {
match *self {
ItemViaNode(node_id) =>
NodesMatchingDirect(Some(node_id).move_iter()),
ItemViaPath(ref parts) =>
NodesMatchingSuffix(map.nodes_matching_suffix(parts.as_slice())),
}
}
fn to_one_node_id(self, user_option: &str, sess: &Session, map: &ast_map::Map) -> ast::NodeId {
let fail_because = |is_wrong_because| -> ast::NodeId {
let message =
format!("{:s} needs NodeId (int) or unique \
path suffix (b::c::d); got {:s}, which {:s}",
user_option,
self.reconstructed_input(),
is_wrong_because);
sess.fatal(message.as_slice())
};
let mut saw_node = ast::DUMMY_NODE_ID;
let mut seen = 0u;
for node in self.all_matching_node_ids(map) {
saw_node = node;
seen += 1;
if seen > 1 {
fail_because("does not resolve uniquely");
}
}
if seen == 0 {
fail_because("does not resolve to any item");
}
assert!(seen == 1);
return saw_node;
}
}
fn needs_ast_map(ppm: &PpMode, opt_uii: &Option<UserIdentifiedItem>) -> bool {
match *ppm {
PpmSource(PpmNormal) |
PpmSource(PpmIdentified) => opt_uii.is_some(),
PpmSource(PpmExpanded) |
PpmSource(PpmExpandedIdentified) |
PpmSource(PpmExpandedHygiene) |
PpmSource(PpmTyped) |
PpmFlowGraph => true
}
}
fn needs_expansion(ppm: &PpMode) -> bool {
match *ppm {
PpmSource(PpmNormal) |
PpmSource(PpmIdentified) => false,
PpmSource(PpmExpanded) |
PpmSource(PpmExpandedIdentified) |
PpmSource(PpmExpandedHygiene) |
PpmSource(PpmTyped) |
PpmFlowGraph => true
}
}
pub fn pretty_print_input(sess: Session,
cfg: ast::CrateConfig,
input: &driver::Input,
ppm: PpMode,
opt_uii: Option<UserIdentifiedItem>,
ofile: Option<Path>) {
let krate = driver::phase_1_parse_input(&sess, cfg, input);
let id = link::find_crate_name(Some(&sess), krate.attrs.as_slice(), input);
let is_expanded = needs_expansion(&ppm);
let (krate, ast_map) = if needs_ast_map(&ppm, &opt_uii) {
let k = driver::phase_2_configure_and_expand(&sess, krate, id.as_slice(), None);
let (krate, ast_map) = match k {
None => return,
Some(p) => p,
};
(krate, Some(ast_map))
} else {
(krate, None)
};
let src_name = driver::source_name(input);
let src = Vec::from_slice(sess.codemap()
.get_filemap(src_name.as_slice())
.src
.as_bytes());
let mut rdr = MemReader::new(src);
let out = match ofile {
None => box io::stdout() as Box<Writer+'static>,
Some(p) => {
let r = io::File::create(&p);
match r {
Ok(w) => box w as Box<Writer+'static>,
Err(e) => fail!("print-print failed to open {} due to {}",
p.display(), e),
}
}
};
match (ppm, opt_uii) {
(PpmSource(s), None) =>
s.call_with_pp_support(
sess, &krate, ast_map, id, out, |annotation, out| {
debug!("pretty printing source code {}", s);
let sess = annotation.sess();
pprust::print_crate(sess.codemap(),
sess.diagnostic(),
&krate,
src_name.to_string(),
&mut rdr,
out,
annotation.pp_ann(),
is_expanded)
}),
(PpmSource(s), Some(uii)) =>
s.call_with_pp_support(
sess, &krate, ast_map, id, (out,uii), |annotation, (out,uii)| {
debug!("pretty printing source code {}", s);
let sess = annotation.sess();
let ast_map = annotation.ast_map()
.expect("--pretty missing ast_map");
let mut pp_state =
pprust::State::new_from_input(sess.codemap(),
sess.diagnostic(),
src_name.to_string(),
&mut rdr,
out,
annotation.pp_ann(),
is_expanded);
for node_id in uii.all_matching_node_ids(ast_map) {
let node = ast_map.get(node_id);
try!(pp_state.print_node(&node));
try!(pp::space(&mut pp_state.s));
try!(pp_state.synth_comment(ast_map.path_to_string(node_id)));
try!(pp::hardbreak(&mut pp_state.s));
}
pp::eof(&mut pp_state.s)
}),
(PpmFlowGraph, opt_uii) => {
debug!("pretty printing flow graph for {}", opt_uii);
let uii = opt_uii.unwrap_or_else(|| {
sess.fatal(format!("`pretty flowgraph=..` needs NodeId (int) or
unique path suffix (b::c::d)").as_slice())
});
let ast_map = ast_map.expect("--pretty flowgraph missing ast_map");
let nodeid = uii.to_one_node_id("--pretty", &sess, &ast_map);
let node = ast_map.find(nodeid).unwrap_or_else(|| {
sess.fatal(format!("--pretty flowgraph couldn't find id: {}",
nodeid).as_slice())
});
let code = blocks::Code::from_node(node);
match code {
Some(code) => {
let variants = gather_flowgraph_variants(&sess);
let type_arena = TypedArena::new();
let analysis = driver::phase_3_run_analysis_passes(sess, &krate,
ast_map, &type_arena, id);
print_flowgraph(variants, analysis, code, out)
}
None => {
let message = format!("--pretty=flowgraph needs \
block, fn, or method; got {:?}",
node);
// point to what was found, if there's an
// accessible span.
match ast_map.opt_span(nodeid) {
Some(sp) => sess.span_fatal(sp, message.as_slice()),
None => sess.fatal(message.as_slice())
}
}
}
}
}.unwrap()
}
fn print_flowgraph<W:io::Writer>(variants: Vec<borrowck_dot::Variant>,
analysis: CrateAnalysis,
code: blocks::Code,
mut out: W) -> io::IoResult<()> {
let ty_cx = &analysis.ty_cx;
let cfg = match code {
blocks::BlockCode(block) => cfg::CFG::new(ty_cx, &*block),
blocks::FnLikeCode(fn_like) => cfg::CFG::new(ty_cx, &*fn_like.body()),
};
debug!("cfg: {:?}", cfg);
match code {
_ if variants.len() == 0 => {
let lcfg = LabelledCFG {
ast_map: &ty_cx.map,
cfg: &cfg,
name: format!("node_{}", code.id()),
};
let r = dot::render(&lcfg, &mut out);
return expand_err_details(r);
}
blocks::BlockCode(_) => {
ty_cx.sess.err("--pretty flowgraph with -Z flowgraph-print \
annotations requires fn-like node id.");
return Ok(())
}
blocks::FnLikeCode(fn_like) => {
let fn_parts = FnPartsWithCFG::from_fn_like(&fn_like, &cfg);
let (bccx, analysis_data) =
borrowck::build_borrowck_dataflow_data_for_fn(ty_cx, fn_parts);
let lcfg = LabelledCFG {
ast_map: &ty_cx.map,
cfg: &cfg,
name: format!("node_{}", code.id()),
};
let lcfg = borrowck_dot::DataflowLabeller {
inner: lcfg,
variants: variants,
borrowck_ctxt: &bccx,
analysis_data: &analysis_data,
};
let r = dot::render(&lcfg, &mut out);
return expand_err_details(r);
}
}
fn expand_err_details(r: io::IoResult<()>) -> io::IoResult<()> {
r.map_err(|ioerr| {
let orig_detail = ioerr.detail.clone();
let m = "graphviz::render failed";
io::IoError {
detail: Some(match orig_detail {
None => m.into_string(),
Some(d) => format!("{}: {}", m, d)
}),
..ioerr
}
})
}
}