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load.rs
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load.rs
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//! Code to save/load the dep-graph from files.
use rustc_data_structures::fx::FxHashMap;
use rustc::dep_graph::{PreviousDepGraph, SerializedDepGraph, WorkProduct, WorkProductId};
use rustc::session::Session;
use rustc::ty::TyCtxt;
use rustc::ty::query::OnDiskCache;
use rustc::util::common::time_ext;
use rustc_serialize::Decodable as RustcDecodable;
use rustc_serialize::opaque::Decoder;
use std::path::Path;
use super::data::*;
use super::fs::*;
use super::file_format;
use super::work_product;
pub fn dep_graph_tcx_init(tcx: TyCtxt<'_>) {
if !tcx.dep_graph.is_fully_enabled() {
return
}
tcx.allocate_metadata_dep_nodes();
}
type WorkProductMap = FxHashMap<WorkProductId, WorkProduct>;
pub enum LoadResult<T> {
Ok { data: T },
DataOutOfDate,
Error { message: String },
}
impl LoadResult<(PreviousDepGraph, WorkProductMap)> {
pub fn open(self, sess: &Session) -> (PreviousDepGraph, WorkProductMap) {
match self {
LoadResult::Error { message } => {
sess.warn(&message);
Default::default()
},
LoadResult::DataOutOfDate => {
if let Err(err) = delete_all_session_dir_contents(sess) {
sess.err(&format!("Failed to delete invalidated or incompatible \
incremental compilation session directory contents `{}`: {}.",
dep_graph_path(sess).display(), err));
}
Default::default()
}
LoadResult::Ok { data } => data
}
}
}
fn load_data(report_incremental_info: bool, path: &Path) -> LoadResult<(Vec<u8>, usize)> {
match file_format::read_file(report_incremental_info, path) {
Ok(Some(data_and_pos)) => LoadResult::Ok {
data: data_and_pos
},
Ok(None) => {
// The file either didn't exist or was produced by an incompatible
// compiler version. Neither is an error.
LoadResult::DataOutOfDate
}
Err(err) => {
LoadResult::Error {
message: format!("could not load dep-graph from `{}`: {}",
path.display(), err)
}
}
}
}
fn delete_dirty_work_product(sess: &Session,
swp: SerializedWorkProduct) {
debug!("delete_dirty_work_product({:?})", swp);
work_product::delete_workproduct_files(sess, &swp.work_product);
}
/// Either a result that has already be computed or a
/// handle that will let us wait until it is computed
/// by a background thread.
pub enum MaybeAsync<T> {
Sync(T),
Async(std::thread::JoinHandle<T>)
}
impl<T> MaybeAsync<T> {
pub fn open(self) -> std::thread::Result<T> {
match self {
MaybeAsync::Sync(result) => Ok(result),
MaybeAsync::Async(handle) => handle.join()
}
}
}
pub type DepGraphFuture = MaybeAsync<LoadResult<(PreviousDepGraph, WorkProductMap)>>;
/// Launch a thread and load the dependency graph in the background.
pub fn load_dep_graph(sess: &Session) -> DepGraphFuture {
// Since `sess` isn't `Sync`, we perform all accesses to `sess`
// before we fire the background thread.
let time_passes = sess.time_passes();
let prof = sess.prof.clone();
if sess.opts.incremental.is_none() {
// No incremental compilation.
return MaybeAsync::Sync(LoadResult::Ok {
data: Default::default(),
});
}
// Calling `sess.incr_comp_session_dir()` will panic if `sess.opts.incremental.is_none()`.
// Fortunately, we just checked that this isn't the case.
let path = dep_graph_path_from(&sess.incr_comp_session_dir());
let report_incremental_info = sess.opts.debugging_opts.incremental_info;
let expected_hash = sess.opts.dep_tracking_hash();
let mut prev_work_products = FxHashMap::default();
// If we are only building with -Zquery-dep-graph but without an actual
// incr. comp. session directory, we skip this. Otherwise we'd fail
// when trying to load work products.
if sess.incr_comp_session_dir_opt().is_some() {
let work_products_path = work_products_path(sess);
let load_result = load_data(report_incremental_info, &work_products_path);
if let LoadResult::Ok { data: (work_products_data, start_pos) } = load_result {
// Decode the list of work_products
let mut work_product_decoder = Decoder::new(&work_products_data[..], start_pos);
let work_products: Vec<SerializedWorkProduct> =
RustcDecodable::decode(&mut work_product_decoder).unwrap_or_else(|e| {
let msg = format!("Error decoding `work-products` from incremental \
compilation session directory: {}", e);
sess.fatal(&msg[..])
});
for swp in work_products {
let mut all_files_exist = true;
for &(_, ref file_name) in swp.work_product.saved_files.iter() {
let path = in_incr_comp_dir_sess(sess, file_name);
if !path.exists() {
all_files_exist = false;
if sess.opts.debugging_opts.incremental_info {
eprintln!("incremental: could not find file for work \
product: {}", path.display());
}
}
}
if all_files_exist {
debug!("reconcile_work_products: all files for {:?} exist", swp);
prev_work_products.insert(swp.id, swp.work_product);
} else {
debug!("reconcile_work_products: some file for {:?} does not exist", swp);
delete_dirty_work_product(sess, swp);
}
}
}
}
MaybeAsync::Async(std::thread::spawn(move || {
time_ext(time_passes, "background load prev dep-graph", move || {
let _prof_timer = prof.generic_activity("incr_comp_load_dep_graph");
match load_data(report_incremental_info, &path) {
LoadResult::DataOutOfDate => LoadResult::DataOutOfDate,
LoadResult::Error { message } => LoadResult::Error { message },
LoadResult::Ok { data: (bytes, start_pos) } => {
let mut decoder = Decoder::new(&bytes, start_pos);
let prev_commandline_args_hash = u64::decode(&mut decoder)
.expect("Error reading commandline arg hash from cached dep-graph");
if prev_commandline_args_hash != expected_hash {
if report_incremental_info {
println!("[incremental] completely ignoring cache because of \
differing commandline arguments");
}
// We can't reuse the cache, purge it.
debug!("load_dep_graph_new: differing commandline arg hashes");
// No need to do any further work
return LoadResult::DataOutOfDate;
}
let dep_graph = SerializedDepGraph::decode(&mut decoder)
.expect("Error reading cached dep-graph");
LoadResult::Ok { data: (PreviousDepGraph::new(dep_graph), prev_work_products) }
}
}
})
}))
}
pub fn load_query_result_cache(sess: &Session) -> OnDiskCache<'_> {
if sess.opts.incremental.is_none() ||
!sess.opts.debugging_opts.incremental_queries {
return OnDiskCache::new_empty(sess.source_map());
}
let _prof_timer = sess.prof.generic_activity("incr_comp_load_query_result_cache");
match load_data(sess.opts.debugging_opts.incremental_info, &query_cache_path(sess)) {
LoadResult::Ok{ data: (bytes, start_pos) } => OnDiskCache::new(sess, bytes, start_pos),
_ => OnDiskCache::new_empty(sess.source_map())
}
}