Auto merge of #57061 - Zoxc:graph-refactor, r=michaelwoerister

Group dep node data into a single structure

r? @michaelwoerister
This commit is contained in:
bors 2018-12-31 10:55:46 +00:00
commit 433ef826f0
3 changed files with 192 additions and 186 deletions

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@ -423,17 +423,6 @@ impl DefId {
} }
} }
impl DepKind {
#[inline]
pub fn fingerprint_needed_for_crate_hash(self) -> bool {
match self {
DepKind::HirBody |
DepKind::Krate => true,
_ => false,
}
}
}
define_dep_nodes!( <'tcx> define_dep_nodes!( <'tcx>
// We use this for most things when incr. comp. is turned off. // We use this for most things when incr. comp. is turned off.
[] Null, [] Null,

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@ -6,6 +6,7 @@ use smallvec::SmallVec;
use rustc_data_structures::sync::{Lrc, Lock}; use rustc_data_structures::sync::{Lrc, Lock};
use std::env; use std::env;
use std::hash::Hash; use std::hash::Hash;
use std::collections::hash_map::Entry;
use ty::{self, TyCtxt}; use ty::{self, TyCtxt};
use util::common::{ProfileQueriesMsg, profq_msg}; use util::common::{ProfileQueriesMsg, profq_msg};
@ -21,12 +22,6 @@ use super::prev::PreviousDepGraph;
#[derive(Clone)] #[derive(Clone)]
pub struct DepGraph { pub struct DepGraph {
data: Option<Lrc<DepGraphData>>, data: Option<Lrc<DepGraphData>>,
// A vector mapping depnodes from the current graph to their associated
// result value fingerprints. Do not rely on the length of this vector
// being the same as the number of nodes in the graph. The vector can
// contain an arbitrary number of zero-entries at the end.
fingerprints: Lrc<Lock<IndexVec<DepNodeIndex, Fingerprint>>>
} }
newtype_index! { newtype_index! {
@ -81,30 +76,23 @@ impl DepGraph {
pub fn new(prev_graph: PreviousDepGraph, pub fn new(prev_graph: PreviousDepGraph,
prev_work_products: FxHashMap<WorkProductId, WorkProduct>) -> DepGraph { prev_work_products: FxHashMap<WorkProductId, WorkProduct>) -> DepGraph {
// Pre-allocate the fingerprints array. We over-allocate a little so
// that we hopefully don't have to re-allocate during this compilation
// session.
let prev_graph_node_count = prev_graph.node_count(); let prev_graph_node_count = prev_graph.node_count();
let fingerprints = IndexVec::from_elem_n(Fingerprint::ZERO,
(prev_graph_node_count * 115) / 100);
DepGraph { DepGraph {
data: Some(Lrc::new(DepGraphData { data: Some(Lrc::new(DepGraphData {
previous_work_products: prev_work_products, previous_work_products: prev_work_products,
dep_node_debug: Default::default(), dep_node_debug: Default::default(),
current: Lock::new(CurrentDepGraph::new()), current: Lock::new(CurrentDepGraph::new(prev_graph_node_count)),
previous: prev_graph, previous: prev_graph,
colors: Lock::new(DepNodeColorMap::new(prev_graph_node_count)), colors: Lock::new(DepNodeColorMap::new(prev_graph_node_count)),
loaded_from_cache: Default::default(), loaded_from_cache: Default::default(),
})), })),
fingerprints: Lrc::new(Lock::new(fingerprints)),
} }
} }
pub fn new_disabled() -> DepGraph { pub fn new_disabled() -> DepGraph {
DepGraph { DepGraph {
data: None, data: None,
fingerprints: Lrc::new(Lock::new(IndexVec::new())),
} }
} }
@ -116,12 +104,12 @@ impl DepGraph {
pub fn query(&self) -> DepGraphQuery { pub fn query(&self) -> DepGraphQuery {
let current_dep_graph = self.data.as_ref().unwrap().current.borrow(); let current_dep_graph = self.data.as_ref().unwrap().current.borrow();
let nodes: Vec<_> = current_dep_graph.nodes.iter().cloned().collect(); let nodes: Vec<_> = current_dep_graph.data.iter().map(|n| n.node).collect();
let mut edges = Vec::new(); let mut edges = Vec::new();
for (index, edge_targets) in current_dep_graph.edges.iter_enumerated() { for (from, edge_targets) in current_dep_graph.data.iter()
let from = current_dep_graph.nodes[index]; .map(|d| (d.node, &d.edges)) {
for &edge_target in edge_targets.iter() { for &edge_target in edge_targets.iter() {
let to = current_dep_graph.nodes[edge_target]; let to = current_dep_graph.data[edge_target].node;
edges.push((from, to)); edges.push((from, to));
} }
} }
@ -201,7 +189,7 @@ impl DepGraph {
reads: SmallVec::new(), reads: SmallVec::new(),
read_set: Default::default(), read_set: Default::default(),
})), })),
|data, key, task| data.borrow_mut().complete_task(key, task)) |data, key, fingerprint, task| data.borrow_mut().complete_task(key, task, fingerprint))
} }
/// Creates a new dep-graph input with value `input` /// Creates a new dep-graph input with value `input`
@ -219,7 +207,9 @@ impl DepGraph {
self.with_task_impl(key, cx, input, true, identity_fn, self.with_task_impl(key, cx, input, true, identity_fn,
|_| OpenTask::Ignore, |_| OpenTask::Ignore,
|data, key, _| data.borrow_mut().alloc_node(key, SmallVec::new())) |data, key, fingerprint, _| {
data.borrow_mut().alloc_node(key, SmallVec::new(), fingerprint)
})
} }
fn with_task_impl<'gcx, C, A, R>( fn with_task_impl<'gcx, C, A, R>(
@ -232,6 +222,7 @@ impl DepGraph {
create_task: fn(DepNode) -> OpenTask, create_task: fn(DepNode) -> OpenTask,
finish_task_and_alloc_depnode: fn(&Lock<CurrentDepGraph>, finish_task_and_alloc_depnode: fn(&Lock<CurrentDepGraph>,
DepNode, DepNode,
Fingerprint,
OpenTask) -> DepNodeIndex OpenTask) -> DepNodeIndex
) -> (R, DepNodeIndex) ) -> (R, DepNodeIndex)
where where
@ -271,26 +262,17 @@ impl DepGraph {
profq_msg(hcx.sess(), ProfileQueriesMsg::TaskEnd) profq_msg(hcx.sess(), ProfileQueriesMsg::TaskEnd)
}; };
let dep_node_index = finish_task_and_alloc_depnode(&data.current, key, open_task);
let mut stable_hasher = StableHasher::new(); let mut stable_hasher = StableHasher::new();
result.hash_stable(&mut hcx, &mut stable_hasher); result.hash_stable(&mut hcx, &mut stable_hasher);
let current_fingerprint = stable_hasher.finish(); let current_fingerprint = stable_hasher.finish();
// Store the current fingerprint let dep_node_index = finish_task_and_alloc_depnode(
{ &data.current,
let mut fingerprints = self.fingerprints.borrow_mut(); key,
current_fingerprint,
if dep_node_index.index() >= fingerprints.len() { open_task
fingerprints.resize(dep_node_index.index() + 1, Fingerprint::ZERO); );
}
debug_assert!(fingerprints[dep_node_index] == Fingerprint::ZERO,
"DepGraph::with_task() - Duplicate fingerprint \
insertion for {:?}", key);
fingerprints[dep_node_index] = current_fingerprint;
}
// Determine the color of the new DepNode. // Determine the color of the new DepNode.
if let Some(prev_index) = data.previous.node_to_index_opt(&key) { if let Some(prev_index) = data.previous.node_to_index_opt(&key) {
@ -312,25 +294,7 @@ impl DepGraph {
(result, dep_node_index) (result, dep_node_index)
} else { } else {
if key.kind.fingerprint_needed_for_crate_hash() { (task(cx, arg), DepNodeIndex::INVALID)
let mut hcx = cx.get_stable_hashing_context();
let result = task(cx, arg);
let mut stable_hasher = StableHasher::new();
result.hash_stable(&mut hcx, &mut stable_hasher);
let fingerprint = stable_hasher.finish();
let mut fingerprints = self.fingerprints.borrow_mut();
let dep_node_index = DepNodeIndex::new(fingerprints.len());
fingerprints.push(fingerprint);
debug_assert!(fingerprints[dep_node_index] == fingerprint,
"DepGraph::with_task() - Assigned fingerprint to \
unexpected index for {:?}", key);
(result, dep_node_index)
} else {
(task(cx, arg), DepNodeIndex::INVALID)
}
} }
} }
@ -381,7 +345,9 @@ impl DepGraph {
{ {
self.with_task_impl(key, cx, arg, false, task, self.with_task_impl(key, cx, arg, false, task,
|key| OpenTask::EvalAlways { node: key }, |key| OpenTask::EvalAlways { node: key },
|data, key, task| data.borrow_mut().complete_eval_always_task(key, task)) |data, key, fingerprint, task| {
data.borrow_mut().complete_eval_always_task(key, task, fingerprint)
})
} }
#[inline] #[inline]
@ -427,17 +393,8 @@ impl DepGraph {
#[inline] #[inline]
pub fn fingerprint_of(&self, dep_node_index: DepNodeIndex) -> Fingerprint { pub fn fingerprint_of(&self, dep_node_index: DepNodeIndex) -> Fingerprint {
match self.fingerprints.borrow().get(dep_node_index) { let current = self.data.as_ref().expect("dep graph enabled").current.borrow_mut();
Some(&fingerprint) => fingerprint, current.data[dep_node_index].fingerprint
None => {
if let Some(ref data) = self.data {
let dep_node = data.current.borrow().nodes[dep_node_index];
bug!("Could not find current fingerprint for {:?}", dep_node)
} else {
bug!("Could not find current fingerprint for {:?}", dep_node_index)
}
}
}
} }
pub fn prev_fingerprint_of(&self, dep_node: &DepNode) -> Option<Fingerprint> { pub fn prev_fingerprint_of(&self, dep_node: &DepNode) -> Option<Fingerprint> {
@ -498,17 +455,20 @@ impl DepGraph {
pub fn serialize(&self) -> SerializedDepGraph { pub fn serialize(&self) -> SerializedDepGraph {
let current_dep_graph = self.data.as_ref().unwrap().current.borrow(); let current_dep_graph = self.data.as_ref().unwrap().current.borrow();
let fingerprints = self.fingerprints.borrow().clone().convert_index_type(); let fingerprints: IndexVec<SerializedDepNodeIndex, _> =
let nodes = current_dep_graph.nodes.clone().convert_index_type(); current_dep_graph.data.iter().map(|d| d.fingerprint).collect();
let nodes: IndexVec<SerializedDepNodeIndex, _> =
current_dep_graph.data.iter().map(|d| d.node).collect();
let total_edge_count: usize = current_dep_graph.edges.iter() let total_edge_count: usize = current_dep_graph.data.iter()
.map(|v| v.len()) .map(|d| d.edges.len())
.sum(); .sum();
let mut edge_list_indices = IndexVec::with_capacity(nodes.len()); let mut edge_list_indices = IndexVec::with_capacity(nodes.len());
let mut edge_list_data = Vec::with_capacity(total_edge_count); let mut edge_list_data = Vec::with_capacity(total_edge_count);
for (current_dep_node_index, edges) in current_dep_graph.edges.iter_enumerated() { for (current_dep_node_index, edges) in current_dep_graph.data.iter_enumerated()
.map(|(i, d)| (i, &d.edges)) {
let start = edge_list_data.len() as u32; let start = edge_list_data.len() as u32;
// This should really just be a memcpy :/ // This should really just be a memcpy :/
edge_list_data.extend(edges.iter().map(|i| SerializedDepNodeIndex::new(i.index()))); edge_list_data.extend(edges.iter().map(|i| SerializedDepNodeIndex::new(i.index())));
@ -700,34 +660,14 @@ impl DepGraph {
let (dep_node_index, did_allocation) = { let (dep_node_index, did_allocation) = {
let mut current = data.current.borrow_mut(); let mut current = data.current.borrow_mut();
if let Some(&dep_node_index) = current.node_to_node_index.get(&dep_node) { // Copy the fingerprint from the previous graph,
// Someone else allocated it before us // so we don't have to recompute it
(dep_node_index, false)
} else {
// We allocating an entry for the node in the current dependency graph and
// adding all the appropriate edges imported from the previous graph
(current.alloc_node(*dep_node, current_deps), true)
}
};
// ... copying the fingerprint from the previous graph too, so we don't
// have to recompute it ...
{
let fingerprint = data.previous.fingerprint_by_index(prev_dep_node_index); let fingerprint = data.previous.fingerprint_by_index(prev_dep_node_index);
let mut fingerprints = self.fingerprints.borrow_mut();
if dep_node_index.index() >= fingerprints.len() { // We allocating an entry for the node in the current dependency graph and
fingerprints.resize(dep_node_index.index() + 1, Fingerprint::ZERO); // adding all the appropriate edges imported from the previous graph
} current.intern_node(*dep_node, current_deps, fingerprint)
};
// Multiple threads can all write the same fingerprint here
#[cfg(not(parallel_queries))]
debug_assert!(fingerprints[dep_node_index] == Fingerprint::ZERO,
"DepGraph::try_mark_green() - Duplicate fingerprint \
insertion for {:?}", dep_node);
fingerprints[dep_node_index] = fingerprint;
}
// ... emitting any stored diagnostic ... // ... emitting any stored diagnostic ...
if did_allocation { if did_allocation {
@ -814,7 +754,7 @@ impl DepGraph {
pub fn mark_loaded_from_cache(&self, dep_node_index: DepNodeIndex, state: bool) { pub fn mark_loaded_from_cache(&self, dep_node_index: DepNodeIndex, state: bool) {
debug!("mark_loaded_from_cache({:?}, {})", debug!("mark_loaded_from_cache({:?}, {})",
self.data.as_ref().unwrap().current.borrow().nodes[dep_node_index], self.data.as_ref().unwrap().current.borrow().data[dep_node_index].node,
state); state);
self.data self.data
@ -877,9 +817,15 @@ pub enum WorkProductFileKind {
BytecodeCompressed, BytecodeCompressed,
} }
#[derive(Clone)]
struct DepNodeData {
node: DepNode,
edges: SmallVec<[DepNodeIndex; 8]>,
fingerprint: Fingerprint,
}
pub(super) struct CurrentDepGraph { pub(super) struct CurrentDepGraph {
nodes: IndexVec<DepNodeIndex, DepNode>, data: IndexVec<DepNodeIndex, DepNodeData>,
edges: IndexVec<DepNodeIndex, SmallVec<[DepNodeIndex; 8]>>,
node_to_node_index: FxHashMap<DepNode, DepNodeIndex>, node_to_node_index: FxHashMap<DepNode, DepNodeIndex>,
forbidden_edge: Option<EdgeFilter>, forbidden_edge: Option<EdgeFilter>,
@ -901,7 +847,7 @@ pub(super) struct CurrentDepGraph {
} }
impl CurrentDepGraph { impl CurrentDepGraph {
fn new() -> CurrentDepGraph { fn new(prev_graph_node_count: usize) -> CurrentDepGraph {
use std::time::{SystemTime, UNIX_EPOCH}; use std::time::{SystemTime, UNIX_EPOCH};
let duration = SystemTime::now().duration_since(UNIX_EPOCH).unwrap(); let duration = SystemTime::now().duration_since(UNIX_EPOCH).unwrap();
@ -924,10 +870,17 @@ impl CurrentDepGraph {
None None
}; };
// Pre-allocate the dep node structures. We over-allocate a little so
// that we hopefully don't have to re-allocate during this compilation
// session.
let new_node_count_estimate = (prev_graph_node_count * 115) / 100;
CurrentDepGraph { CurrentDepGraph {
nodes: IndexVec::new(), data: IndexVec::with_capacity(new_node_count_estimate),
edges: IndexVec::new(), node_to_node_index: FxHashMap::with_capacity_and_hasher(
node_to_node_index: Default::default(), new_node_count_estimate,
Default::default(),
),
anon_id_seed: stable_hasher.finish(), anon_id_seed: stable_hasher.finish(),
forbidden_edge, forbidden_edge,
total_read_count: 0, total_read_count: 0,
@ -935,7 +888,12 @@ impl CurrentDepGraph {
} }
} }
fn complete_task(&mut self, key: DepNode, task: OpenTask) -> DepNodeIndex { fn complete_task(
&mut self,
key: DepNode,
task: OpenTask,
fingerprint: Fingerprint
) -> DepNodeIndex {
if let OpenTask::Regular(task) = task { if let OpenTask::Regular(task) = task {
let RegularOpenTask { let RegularOpenTask {
node, node,
@ -956,17 +914,17 @@ impl CurrentDepGraph {
// better in general. // better in general.
node.kind != DepKind::DefSpan && node.kind != DepKind::DefSpan &&
reads.iter().any(|&i| { reads.iter().any(|&i| {
!(self.nodes[i].kind == DepKind::CrateMetadata || !(self.data[i].node.kind == DepKind::CrateMetadata ||
self.nodes[i].kind == DepKind::Krate) self.data[i].node.kind == DepKind::Krate)
}) })
{ {
bug!("Input node {:?} with unexpected reads: {:?}", bug!("Input node {:?} with unexpected reads: {:?}",
node, node,
reads.iter().map(|&i| self.nodes[i]).collect::<Vec<_>>()) reads.iter().map(|&i| self.data[i].node).collect::<Vec<_>>())
} }
} }
self.alloc_node(node, reads) self.alloc_node(node, reads, fingerprint)
} else { } else {
bug!("complete_task() - Expected regular task to be popped") bug!("complete_task() - Expected regular task to be popped")
} }
@ -984,7 +942,7 @@ impl CurrentDepGraph {
let mut hasher = StableHasher::new(); let mut hasher = StableHasher::new();
for &read in reads.iter() { for &read in reads.iter() {
let read_dep_node = self.nodes[read]; let read_dep_node = self.data[read].node;
::std::mem::discriminant(&read_dep_node.kind).hash(&mut hasher); ::std::mem::discriminant(&read_dep_node.kind).hash(&mut hasher);
@ -1001,23 +959,24 @@ impl CurrentDepGraph {
hash: fingerprint, hash: fingerprint,
}; };
if let Some(&index) = self.node_to_node_index.get(&target_dep_node) { self.intern_node(target_dep_node, reads, Fingerprint::ZERO).0
index
} else {
self.alloc_node(target_dep_node, reads)
}
} else { } else {
bug!("pop_anon_task() - Expected anonymous task to be popped") bug!("pop_anon_task() - Expected anonymous task to be popped")
} }
} }
fn complete_eval_always_task(&mut self, key: DepNode, task: OpenTask) -> DepNodeIndex { fn complete_eval_always_task(
&mut self,
key: DepNode,
task: OpenTask,
fingerprint: Fingerprint
) -> DepNodeIndex {
if let OpenTask::EvalAlways { if let OpenTask::EvalAlways {
node, node,
} = task { } = task {
debug_assert_eq!(node, key); debug_assert_eq!(node, key);
let krate_idx = self.node_to_node_index[&DepNode::new_no_params(DepKind::Krate)]; let krate_idx = self.node_to_node_index[&DepNode::new_no_params(DepKind::Krate)];
self.alloc_node(node, smallvec![krate_idx]) self.alloc_node(node, smallvec![krate_idx], fingerprint)
} else { } else {
bug!("complete_eval_always_task() - Expected eval always task to be popped"); bug!("complete_eval_always_task() - Expected eval always task to be popped");
} }
@ -1036,7 +995,7 @@ impl CurrentDepGraph {
if cfg!(debug_assertions) { if cfg!(debug_assertions) {
if let Some(ref forbidden_edge) = self.forbidden_edge { if let Some(ref forbidden_edge) = self.forbidden_edge {
let target = &task.node; let target = &task.node;
let source = self.nodes[source]; let source = self.data[source].node;
if forbidden_edge.test(&source, &target) { if forbidden_edge.test(&source, &target) {
bug!("forbidden edge {:?} -> {:?} created", bug!("forbidden edge {:?} -> {:?} created",
source, source,
@ -1061,18 +1020,37 @@ impl CurrentDepGraph {
}) })
} }
fn alloc_node(&mut self, fn alloc_node(
dep_node: DepNode, &mut self,
edges: SmallVec<[DepNodeIndex; 8]>) dep_node: DepNode,
-> DepNodeIndex { edges: SmallVec<[DepNodeIndex; 8]>,
debug_assert_eq!(self.edges.len(), self.nodes.len()); fingerprint: Fingerprint
debug_assert_eq!(self.node_to_node_index.len(), self.nodes.len()); ) -> DepNodeIndex {
debug_assert!(!self.node_to_node_index.contains_key(&dep_node)); debug_assert!(!self.node_to_node_index.contains_key(&dep_node));
let dep_node_index = DepNodeIndex::new(self.nodes.len()); self.intern_node(dep_node, edges, fingerprint).0
self.nodes.push(dep_node); }
self.node_to_node_index.insert(dep_node, dep_node_index);
self.edges.push(edges); fn intern_node(
dep_node_index &mut self,
dep_node: DepNode,
edges: SmallVec<[DepNodeIndex; 8]>,
fingerprint: Fingerprint
) -> (DepNodeIndex, bool) {
debug_assert_eq!(self.node_to_node_index.len(), self.data.len());
match self.node_to_node_index.entry(dep_node) {
Entry::Occupied(entry) => (*entry.get(), false),
Entry::Vacant(entry) => {
let dep_node_index = DepNodeIndex::new(self.data.len());
self.data.push(DepNodeData {
node: dep_node,
edges,
fingerprint
});
entry.insert(dep_node_index);
(dep_node_index, true)
}
}
} }
} }

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@ -41,21 +41,69 @@ pub(super) struct NodeCollector<'a, 'hir> {
// We are collecting DepNode::HirBody hashes here so we can compute the // We are collecting DepNode::HirBody hashes here so we can compute the
// crate hash from then later on. // crate hash from then later on.
hir_body_nodes: Vec<(DefPathHash, DepNodeIndex)>, hir_body_nodes: Vec<(DefPathHash, Fingerprint)>,
}
fn input_dep_node_and_hash<'a, I>(
dep_graph: &DepGraph,
hcx: &mut StableHashingContext<'a>,
dep_node: DepNode,
input: I,
) -> (DepNodeIndex, Fingerprint)
where
I: HashStable<StableHashingContext<'a>>,
{
let dep_node_index = dep_graph.input_task(dep_node, &mut *hcx, &input).1;
let hash = if dep_graph.is_fully_enabled() {
dep_graph.fingerprint_of(dep_node_index)
} else {
let mut stable_hasher = StableHasher::new();
input.hash_stable(hcx, &mut stable_hasher);
stable_hasher.finish()
};
(dep_node_index, hash)
}
fn alloc_hir_dep_nodes<'a, I>(
dep_graph: &DepGraph,
hcx: &mut StableHashingContext<'a>,
def_path_hash: DefPathHash,
item_like: I,
hir_body_nodes: &mut Vec<(DefPathHash, Fingerprint)>,
) -> (DepNodeIndex, DepNodeIndex)
where
I: HashStable<StableHashingContext<'a>>,
{
let sig = dep_graph.input_task(
def_path_hash.to_dep_node(DepKind::Hir),
&mut *hcx,
HirItemLike { item_like: &item_like, hash_bodies: false },
).1;
let (full, hash) = input_dep_node_and_hash(
dep_graph,
hcx,
def_path_hash.to_dep_node(DepKind::HirBody),
HirItemLike { item_like: &item_like, hash_bodies: true },
);
hir_body_nodes.push((def_path_hash, hash));
(sig, full)
} }
impl<'a, 'hir> NodeCollector<'a, 'hir> { impl<'a, 'hir> NodeCollector<'a, 'hir> {
pub(super) fn root(krate: &'hir Crate, pub(super) fn root(krate: &'hir Crate,
dep_graph: &'a DepGraph, dep_graph: &'a DepGraph,
definitions: &'a definitions::Definitions, definitions: &'a definitions::Definitions,
hcx: StableHashingContext<'a>, mut hcx: StableHashingContext<'a>,
source_map: &'a SourceMap) source_map: &'a SourceMap)
-> NodeCollector<'a, 'hir> { -> NodeCollector<'a, 'hir> {
let root_mod_def_path_hash = definitions.def_path_hash(CRATE_DEF_INDEX); let root_mod_def_path_hash = definitions.def_path_hash(CRATE_DEF_INDEX);
let mut hir_body_nodes = Vec::new();
// Allocate DepNodes for the root module // Allocate DepNodes for the root module
let (root_mod_sig_dep_index, root_mod_full_dep_index); let (root_mod_sig_dep_index, root_mod_full_dep_index) = {
{
let Crate { let Crate {
ref module, ref module,
// Crate attributes are not copied over to the root `Mod`, so hash // Crate attributes are not copied over to the root `Mod`, so hash
@ -73,28 +121,23 @@ impl<'a, 'hir> NodeCollector<'a, 'hir> {
body_ids: _, body_ids: _,
} = *krate; } = *krate;
root_mod_sig_dep_index = dep_graph.input_task( alloc_hir_dep_nodes(
root_mod_def_path_hash.to_dep_node(DepKind::Hir), dep_graph,
&hcx, &mut hcx,
HirItemLike { item_like: (module, attrs, span), hash_bodies: false }, root_mod_def_path_hash,
).1; (module, attrs, span),
root_mod_full_dep_index = dep_graph.input_task( &mut hir_body_nodes,
root_mod_def_path_hash.to_dep_node(DepKind::HirBody), )
&hcx, };
HirItemLike { item_like: (module, attrs, span), hash_bodies: true },
).1;
}
{ {
dep_graph.input_task( dep_graph.input_task(
DepNode::new_no_params(DepKind::AllLocalTraitImpls), DepNode::new_no_params(DepKind::AllLocalTraitImpls),
&hcx, &mut hcx,
&krate.trait_impls, &krate.trait_impls,
); );
} }
let hir_body_nodes = vec![(root_mod_def_path_hash, root_mod_full_dep_index)];
let mut collector = NodeCollector { let mut collector = NodeCollector {
krate, krate,
source_map, source_map,
@ -129,10 +172,8 @@ impl<'a, 'hir> NodeCollector<'a, 'hir> {
let node_hashes = self let node_hashes = self
.hir_body_nodes .hir_body_nodes
.iter() .iter()
.fold(Fingerprint::ZERO, |fingerprint, &(def_path_hash, dep_node_index)| { .fold(Fingerprint::ZERO, |combined_fingerprint, &(def_path_hash, fingerprint)| {
fingerprint.combine( combined_fingerprint.combine(def_path_hash.0.combine(fingerprint))
def_path_hash.0.combine(self.dep_graph.fingerprint_of(dep_node_index))
)
}); });
let mut upstream_crates: Vec<_> = cstore.crates_untracked().iter().map(|&cnum| { let mut upstream_crates: Vec<_> = cstore.crates_untracked().iter().map(|&cnum| {
@ -159,17 +200,19 @@ impl<'a, 'hir> NodeCollector<'a, 'hir> {
source_file_names.sort_unstable(); source_file_names.sort_unstable();
let (_, crate_dep_node_index) = self let crate_hash_input = (
.dep_graph ((node_hashes, upstream_crates), source_file_names),
.input_task(DepNode::new_no_params(DepKind::Krate), (commandline_args_hash, crate_disambiguator.to_fingerprint())
&self.hcx, );
(((node_hashes, upstream_crates), source_file_names),
(commandline_args_hash,
crate_disambiguator.to_fingerprint())));
let svh = Svh::new(self.dep_graph let (_, crate_hash) = input_dep_node_and_hash(
.fingerprint_of(crate_dep_node_index) self.dep_graph,
.to_smaller_hash()); &mut self.hcx,
DepNode::new_no_params(DepKind::Krate),
crate_hash_input,
);
let svh = Svh::new(crate_hash.to_smaller_hash());
(self.map, svh) (self.map, svh)
} }
@ -251,19 +294,15 @@ impl<'a, 'hir> NodeCollector<'a, 'hir> {
let def_path_hash = self.definitions.def_path_hash(dep_node_owner); let def_path_hash = self.definitions.def_path_hash(dep_node_owner);
self.current_signature_dep_index = self.dep_graph.input_task( let (signature_dep_index, full_dep_index) = alloc_hir_dep_nodes(
def_path_hash.to_dep_node(DepKind::Hir), self.dep_graph,
&self.hcx, &mut self.hcx,
HirItemLike { item_like, hash_bodies: false }, def_path_hash,
).1; item_like,
&mut self.hir_body_nodes,
self.current_full_dep_index = self.dep_graph.input_task( );
def_path_hash.to_dep_node(DepKind::HirBody), self.current_signature_dep_index = signature_dep_index;
&self.hcx, self.current_full_dep_index = full_dep_index;
HirItemLike { item_like, hash_bodies: true },
).1;
self.hir_body_nodes.push((def_path_hash, self.current_full_dep_index));
self.current_dep_node_owner = dep_node_owner; self.current_dep_node_owner = dep_node_owner;
self.currently_in_body = false; self.currently_in_body = false;