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use parking_lot::Mutex;
use rustc_data_structures::fingerprint::Fingerprint;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_data_structures::profiling::{EventId, QueryInvocationId, SelfProfilerRef};
use rustc_data_structures::sharded::{self, Sharded};
use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
use rustc_data_structures::steal::Steal;
use rustc_data_structures::sync::{AtomicU32, AtomicU64, Lock, Lrc, Ordering};
use rustc_index::vec::IndexVec;
use rustc_serialize::opaque::{FileEncodeResult, FileEncoder};
use smallvec::{smallvec, SmallVec};
use std::assert_matches::assert_matches;
use std::collections::hash_map::Entry;
use std::fmt::Debug;
use std::hash::Hash;
use std::marker::PhantomData;
use std::sync::atomic::Ordering::Relaxed;
use super::query::DepGraphQuery;
use super::serialized::{GraphEncoder, SerializedDepGraph, SerializedDepNodeIndex};
use super::{DepContext, DepKind, DepNode, HasDepContext, WorkProductId};
use crate::ich::StableHashingContext;
use crate::query::{QueryContext, QuerySideEffects};
#[cfg(debug_assertions)]
use {super::debug::EdgeFilter, std::env};
#[derive(Clone)]
pub struct DepGraph<K: DepKind> {
data: Option<Lrc<DepGraphData<K>>>,
virtual_dep_node_index: Lrc<AtomicU32>,
}
rustc_index::newtype_index! {
pub struct DepNodeIndex { .. }
}
impl DepNodeIndex {
pub const INVALID: DepNodeIndex = DepNodeIndex::MAX;
pub const SINGLETON_DEPENDENCYLESS_ANON_NODE: DepNodeIndex = DepNodeIndex::from_u32(0);
pub const FOREVER_RED_NODE: DepNodeIndex = DepNodeIndex::from_u32(1);
}
impl From<DepNodeIndex> for QueryInvocationId {
#[inline]
fn from(dep_node_index: DepNodeIndex) -> Self {
QueryInvocationId(dep_node_index.as_u32())
}
}
#[derive(PartialEq)]
pub enum DepNodeColor {
Red,
Green(DepNodeIndex),
}
impl DepNodeColor {
#[inline]
pub fn is_green(self) -> bool {
match self {
DepNodeColor::Red => false,
DepNodeColor::Green(_) => true,
}
}
}
struct DepGraphData<K: DepKind> {
current: CurrentDepGraph<K>,
previous: SerializedDepGraph<K>,
colors: DepNodeColorMap,
processed_side_effects: Mutex<FxHashSet<DepNodeIndex>>,
previous_work_products: FxHashMap<WorkProductId, WorkProduct>,
dep_node_debug: Lock<FxHashMap<DepNode<K>, String>>,
debug_loaded_from_disk: Lock<FxHashSet<DepNode<K>>>,
}
pub fn hash_result<R>(hcx: &mut StableHashingContext<'_>, result: &R) -> Fingerprint
where
R: for<'a> HashStable<StableHashingContext<'a>>,
{
let mut stable_hasher = StableHasher::new();
result.hash_stable(hcx, &mut stable_hasher);
stable_hasher.finish()
}
impl<K: DepKind> DepGraph<K> {
pub fn new(
profiler: &SelfProfilerRef,
prev_graph: SerializedDepGraph<K>,
prev_work_products: FxHashMap<WorkProductId, WorkProduct>,
encoder: FileEncoder,
record_graph: bool,
record_stats: bool,
) -> DepGraph<K> {
let prev_graph_node_count = prev_graph.node_count();
let current = CurrentDepGraph::new(
profiler,
prev_graph_node_count,
encoder,
record_graph,
record_stats,
);
let colors = DepNodeColorMap::new(prev_graph_node_count);
let _green_node_index = current.intern_new_node(
profiler,
DepNode { kind: DepKind::NULL, hash: current.anon_id_seed.into() },
smallvec![],
Fingerprint::ZERO,
);
assert_eq!(_green_node_index, DepNodeIndex::SINGLETON_DEPENDENCYLESS_ANON_NODE);
let (_red_node_index, _prev_and_index) = current.intern_node(
profiler,
&prev_graph,
DepNode { kind: DepKind::RED, hash: Fingerprint::ZERO.into() },
smallvec![],
None,
false,
);
assert_eq!(_red_node_index, DepNodeIndex::FOREVER_RED_NODE);
assert!(matches!(_prev_and_index, None | Some((_, DepNodeColor::Red))));
DepGraph {
data: Some(Lrc::new(DepGraphData {
previous_work_products: prev_work_products,
dep_node_debug: Default::default(),
current,
processed_side_effects: Default::default(),
previous: prev_graph,
colors,
debug_loaded_from_disk: Default::default(),
})),
virtual_dep_node_index: Lrc::new(AtomicU32::new(0)),
}
}
pub fn new_disabled() -> DepGraph<K> {
DepGraph { data: None, virtual_dep_node_index: Lrc::new(AtomicU32::new(0)) }
}
#[inline]
pub fn is_fully_enabled(&self) -> bool {
self.data.is_some()
}
pub fn with_query(&self, f: impl Fn(&DepGraphQuery<K>)) {
if let Some(data) = &self.data {
data.current.encoder.borrow().with_query(f)
}
}
pub fn assert_ignored(&self) {
if let Some(..) = self.data {
K::read_deps(|task_deps| {
assert_matches!(
task_deps,
TaskDepsRef::Ignore,
"expected no task dependency tracking"
);
})
}
}
pub fn with_ignore<OP, R>(&self, op: OP) -> R
where
OP: FnOnce() -> R,
{
K::with_deps(TaskDepsRef::Ignore, op)
}
pub fn with_query_deserialization<OP, R>(&self, op: OP) -> R
where
OP: FnOnce() -> R,
{
K::with_deps(TaskDepsRef::Forbid, op)
}
pub fn with_task<Ctxt: HasDepContext<DepKind = K>, A: Debug, R>(
&self,
key: DepNode<K>,
cx: Ctxt,
arg: A,
task: fn(Ctxt, A) -> R,
hash_result: Option<fn(&mut StableHashingContext<'_>, &R) -> Fingerprint>,
) -> (R, DepNodeIndex) {
if self.is_fully_enabled() {
self.with_task_impl(key, cx, arg, task, hash_result)
} else {
(task(cx, arg), self.next_virtual_depnode_index())
}
}
fn with_task_impl<Ctxt: HasDepContext<DepKind = K>, A: Debug, R>(
&self,
key: DepNode<K>,
cx: Ctxt,
arg: A,
task: fn(Ctxt, A) -> R,
hash_result: Option<fn(&mut StableHashingContext<'_>, &R) -> Fingerprint>,
) -> (R, DepNodeIndex) {
let data = self.data.as_ref().unwrap();
assert!(
!self.dep_node_exists(&key),
"forcing query with already existing `DepNode`\n\
- query-key: {:?}\n\
- dep-node: {:?}",
arg,
key
);
let task_deps = if cx.dep_context().is_eval_always(key.kind) {
None
} else {
Some(Lock::new(TaskDeps {
#[cfg(debug_assertions)]
node: Some(key),
reads: SmallVec::new(),
read_set: Default::default(),
phantom_data: PhantomData,
}))
};
let task_deps_ref = match &task_deps {
Some(deps) => TaskDepsRef::Allow(deps),
None => TaskDepsRef::Ignore,
};
let result = K::with_deps(task_deps_ref, || task(cx, arg));
let edges = task_deps.map_or_else(|| smallvec![], |lock| lock.into_inner().reads);
let dcx = cx.dep_context();
let hashing_timer = dcx.profiler().incr_result_hashing();
let current_fingerprint =
hash_result.map(|f| dcx.with_stable_hashing_context(|mut hcx| f(&mut hcx, &result)));
let print_status = cfg!(debug_assertions) && dcx.sess().opts.unstable_opts.dep_tasks;
let (dep_node_index, prev_and_color) = data.current.intern_node(
dcx.profiler(),
&data.previous,
key,
edges,
current_fingerprint,
print_status,
);
hashing_timer.finish_with_query_invocation_id(dep_node_index.into());
if let Some((prev_index, color)) = prev_and_color {
debug_assert!(
data.colors.get(prev_index).is_none(),
"DepGraph::with_task() - Duplicate DepNodeColor \
insertion for {:?}",
key
);
data.colors.insert(prev_index, color);
}
(result, dep_node_index)
}
pub fn with_anon_task<Tcx: DepContext<DepKind = K>, OP, R>(
&self,
cx: Tcx,
dep_kind: K,
op: OP,
) -> (R, DepNodeIndex)
where
OP: FnOnce() -> R,
{
debug_assert!(!cx.is_eval_always(dep_kind));
if let Some(ref data) = self.data {
let task_deps = Lock::new(TaskDeps::default());
let result = K::with_deps(TaskDepsRef::Allow(&task_deps), op);
let task_deps = task_deps.into_inner();
let task_deps = task_deps.reads;
let dep_node_index = match task_deps.len() {
0 => {
DepNodeIndex::SINGLETON_DEPENDENCYLESS_ANON_NODE
}
1 => {
task_deps[0]
}
_ => {
let mut hasher = StableHasher::new();
task_deps.hash(&mut hasher);
let target_dep_node = DepNode {
kind: dep_kind,
hash: data.current.anon_id_seed.combine(hasher.finish()).into(),
};
data.current.intern_new_node(
cx.profiler(),
target_dep_node,
task_deps,
Fingerprint::ZERO,
)
}
};
(result, dep_node_index)
} else {
(op(), self.next_virtual_depnode_index())
}
}
#[inline]
pub fn read_index(&self, dep_node_index: DepNodeIndex) {
if let Some(ref data) = self.data {
K::read_deps(|task_deps| {
let mut task_deps = match task_deps {
TaskDepsRef::Allow(deps) => deps.lock(),
TaskDepsRef::Ignore => return,
TaskDepsRef::Forbid => {
panic!("Illegal read of: {:?}", dep_node_index)
}
};
let task_deps = &mut *task_deps;
if cfg!(debug_assertions) {
data.current.total_read_count.fetch_add(1, Relaxed);
}
let new_read = if task_deps.reads.len() < TASK_DEPS_READS_CAP {
task_deps.reads.iter().all(|other| *other != dep_node_index)
} else {
task_deps.read_set.insert(dep_node_index)
};
if new_read {
task_deps.reads.push(dep_node_index);
if task_deps.reads.len() == TASK_DEPS_READS_CAP {
task_deps.read_set.extend(task_deps.reads.iter().copied());
}
#[cfg(debug_assertions)]
{
if let Some(target) = task_deps.node {
if let Some(ref forbidden_edge) = data.current.forbidden_edge {
let src = forbidden_edge.index_to_node.lock()[&dep_node_index];
if forbidden_edge.test(&src, &target) {
panic!("forbidden edge {:?} -> {:?} created", src, target)
}
}
}
}
} else if cfg!(debug_assertions) {
data.current.total_duplicate_read_count.fetch_add(1, Relaxed);
}
})
}
}
pub fn with_feed_task<Ctxt: DepContext<DepKind = K>, A: Debug, R: Debug>(
&self,
node: DepNode<K>,
cx: Ctxt,
key: A,
result: &R,
hash_result: Option<fn(&mut StableHashingContext<'_>, &R) -> Fingerprint>,
) -> DepNodeIndex {
if let Some(data) = self.data.as_ref() {
if let Some(dep_node_index) = self.dep_node_index_of_opt(&node) {
let _current_fingerprint =
crate::query::incremental_verify_ich(cx, result, &node, hash_result);
#[cfg(debug_assertions)]
if hash_result.is_some() {
data.current.record_edge(dep_node_index, node, _current_fingerprint);
}
return dep_node_index;
}
let mut edges = SmallVec::new();
K::read_deps(|task_deps| match task_deps {
TaskDepsRef::Allow(deps) => edges.extend(deps.lock().reads.iter().copied()),
TaskDepsRef::Ignore => {} TaskDepsRef::Forbid => {
panic!("Cannot summarize when dependencies are not recorded.")
}
});
let hashing_timer = cx.profiler().incr_result_hashing();
let current_fingerprint = hash_result.map(|hash_result| {
cx.with_stable_hashing_context(|mut hcx| hash_result(&mut hcx, result))
});
let print_status = cfg!(debug_assertions) && cx.sess().opts.unstable_opts.dep_tasks;
let (dep_node_index, prev_and_color) = data.current.intern_node(
cx.profiler(),
&data.previous,
node,
edges,
current_fingerprint,
print_status,
);
hashing_timer.finish_with_query_invocation_id(dep_node_index.into());
if let Some((prev_index, color)) = prev_and_color {
debug_assert!(
data.colors.get(prev_index).is_none(),
"DepGraph::with_task() - Duplicate DepNodeColor insertion for {key:?}",
);
data.colors.insert(prev_index, color);
}
dep_node_index
} else {
self.next_virtual_depnode_index()
}
}
#[inline]
pub fn dep_node_index_of(&self, dep_node: &DepNode<K>) -> DepNodeIndex {
self.dep_node_index_of_opt(dep_node).unwrap()
}
#[inline]
pub fn dep_node_index_of_opt(&self, dep_node: &DepNode<K>) -> Option<DepNodeIndex> {
let data = self.data.as_ref().unwrap();
let current = &data.current;
if let Some(prev_index) = data.previous.node_to_index_opt(dep_node) {
current.prev_index_to_index.lock()[prev_index]
} else {
current.new_node_to_index.get_shard_by_value(dep_node).lock().get(dep_node).copied()
}
}
#[inline]
pub fn dep_node_exists(&self, dep_node: &DepNode<K>) -> bool {
self.data.is_some() && self.dep_node_index_of_opt(dep_node).is_some()
}
pub fn prev_fingerprint_of(&self, dep_node: &DepNode<K>) -> Option<Fingerprint> {
self.data.as_ref().unwrap().previous.fingerprint_of(dep_node)
}
pub fn previous_work_product(&self, v: &WorkProductId) -> Option<WorkProduct> {
self.data.as_ref().and_then(|data| data.previous_work_products.get(v).cloned())
}
pub fn previous_work_products(&self) -> &FxHashMap<WorkProductId, WorkProduct> {
&self.data.as_ref().unwrap().previous_work_products
}
pub fn mark_debug_loaded_from_disk(&self, dep_node: DepNode<K>) {
self.data.as_ref().unwrap().debug_loaded_from_disk.lock().insert(dep_node);
}
pub fn debug_was_loaded_from_disk(&self, dep_node: DepNode<K>) -> bool {
self.data.as_ref().unwrap().debug_loaded_from_disk.lock().contains(&dep_node)
}
#[inline(always)]
pub fn register_dep_node_debug_str<F>(&self, dep_node: DepNode<K>, debug_str_gen: F)
where
F: FnOnce() -> String,
{
let dep_node_debug = &self.data.as_ref().unwrap().dep_node_debug;
if dep_node_debug.borrow().contains_key(&dep_node) {
return;
}
let debug_str = debug_str_gen();
dep_node_debug.borrow_mut().insert(dep_node, debug_str);
}
pub fn dep_node_debug_str(&self, dep_node: DepNode<K>) -> Option<String> {
self.data.as_ref()?.dep_node_debug.borrow().get(&dep_node).cloned()
}
fn node_color(&self, dep_node: &DepNode<K>) -> Option<DepNodeColor> {
if let Some(ref data) = self.data {
if let Some(prev_index) = data.previous.node_to_index_opt(dep_node) {
return data.colors.get(prev_index);
} else {
return None;
}
}
None
}
pub fn try_mark_green<Qcx: QueryContext<DepKind = K>>(
&self,
qcx: Qcx,
dep_node: &DepNode<K>,
) -> Option<(SerializedDepNodeIndex, DepNodeIndex)> {
debug_assert!(!qcx.dep_context().is_eval_always(dep_node.kind));
let data = self.data.as_ref()?;
let prev_index = data.previous.node_to_index_opt(dep_node)?;
match data.colors.get(prev_index) {
Some(DepNodeColor::Green(dep_node_index)) => Some((prev_index, dep_node_index)),
Some(DepNodeColor::Red) => None,
None => {
self.try_mark_previous_green(qcx, data, prev_index, &dep_node)
.map(|dep_node_index| (prev_index, dep_node_index))
}
}
}
#[instrument(skip(self, qcx, data, parent_dep_node_index), level = "debug")]
fn try_mark_parent_green<Qcx: QueryContext<DepKind = K>>(
&self,
qcx: Qcx,
data: &DepGraphData<K>,
parent_dep_node_index: SerializedDepNodeIndex,
dep_node: &DepNode<K>,
) -> Option<()> {
let dep_dep_node_color = data.colors.get(parent_dep_node_index);
let dep_dep_node = &data.previous.index_to_node(parent_dep_node_index);
match dep_dep_node_color {
Some(DepNodeColor::Green(_)) => {
debug!("dependency {dep_dep_node:?} was immediately green");
return Some(());
}
Some(DepNodeColor::Red) => {
debug!("dependency {dep_dep_node:?} was immediately red");
return None;
}
None => {}
}
if !qcx.dep_context().is_eval_always(dep_dep_node.kind) {
debug!(
"state of dependency {:?} ({}) is unknown, trying to mark it green",
dep_dep_node, dep_dep_node.hash,
);
let node_index =
self.try_mark_previous_green(qcx, data, parent_dep_node_index, dep_dep_node);
if node_index.is_some() {
debug!("managed to MARK dependency {dep_dep_node:?} as green",);
return Some(());
}
}
debug!("trying to force dependency {dep_dep_node:?}");
if !qcx.dep_context().try_force_from_dep_node(*dep_dep_node) {
debug!("dependency {dep_dep_node:?} could not be forced");
return None;
}
let dep_dep_node_color = data.colors.get(parent_dep_node_index);
match dep_dep_node_color {
Some(DepNodeColor::Green(_)) => {
debug!("managed to FORCE dependency {dep_dep_node:?} to green");
return Some(());
}
Some(DepNodeColor::Red) => {
debug!("dependency {dep_dep_node:?} was red after forcing",);
return None;
}
None => {}
}
if let None = qcx.dep_context().sess().has_errors_or_delayed_span_bugs() {
panic!("try_mark_previous_green() - Forcing the DepNode should have set its color")
}
debug!("dependency {dep_dep_node:?} resulted in compilation error",);
return None;
}
#[instrument(skip(self, qcx, data, prev_dep_node_index), level = "debug")]
fn try_mark_previous_green<Qcx: QueryContext<DepKind = K>>(
&self,
qcx: Qcx,
data: &DepGraphData<K>,
prev_dep_node_index: SerializedDepNodeIndex,
dep_node: &DepNode<K>,
) -> Option<DepNodeIndex> {
#[cfg(not(parallel_compiler))]
{
debug_assert!(!self.dep_node_exists(dep_node));
debug_assert!(data.colors.get(prev_dep_node_index).is_none());
}
debug_assert!(!qcx.dep_context().is_eval_always(dep_node.kind));
debug_assert_eq!(data.previous.index_to_node(prev_dep_node_index), *dep_node);
let prev_deps = data.previous.edge_targets_from(prev_dep_node_index);
for &dep_dep_node_index in prev_deps {
self.try_mark_parent_green(qcx, data, dep_dep_node_index, dep_node)?
}
let dep_node_index = data.current.promote_node_and_deps_to_current(
qcx.dep_context().profiler(),
&data.previous,
prev_dep_node_index,
);
let side_effects = qcx.load_side_effects(prev_dep_node_index);
#[cfg(not(parallel_compiler))]
debug_assert!(
data.colors.get(prev_dep_node_index).is_none(),
"DepGraph::try_mark_previous_green() - Duplicate DepNodeColor \
insertion for {:?}",
dep_node
);
if !side_effects.is_empty() {
self.emit_side_effects(qcx, data, dep_node_index, side_effects);
}
data.colors.insert(prev_dep_node_index, DepNodeColor::Green(dep_node_index));
debug!("successfully marked {dep_node:?} as green");
Some(dep_node_index)
}
#[cold]
#[inline(never)]
fn emit_side_effects<Qcx: QueryContext<DepKind = K>>(
&self,
qcx: Qcx,
data: &DepGraphData<K>,
dep_node_index: DepNodeIndex,
side_effects: QuerySideEffects,
) {
let mut processed = data.processed_side_effects.lock();
if processed.insert(dep_node_index) {
qcx.store_side_effects(dep_node_index, side_effects.clone());
let handle = qcx.dep_context().sess().diagnostic();
for mut diagnostic in side_effects.diagnostics {
handle.emit_diagnostic(&mut diagnostic);
}
}
}
pub fn is_red(&self, dep_node: &DepNode<K>) -> bool {
self.node_color(dep_node) == Some(DepNodeColor::Red)
}
pub fn is_green(&self, dep_node: &DepNode<K>) -> bool {
self.node_color(dep_node).map_or(false, |c| c.is_green())
}
pub fn exec_cache_promotions<Tcx: DepContext<DepKind = K>>(&self, tcx: Tcx) {
let _prof_timer = tcx.profiler().generic_activity("incr_comp_query_cache_promotion");
let data = self.data.as_ref().unwrap();
for prev_index in data.colors.values.indices() {
match data.colors.get(prev_index) {
Some(DepNodeColor::Green(_)) => {
let dep_node = data.previous.index_to_node(prev_index);
tcx.try_load_from_on_disk_cache(dep_node);
}
None | Some(DepNodeColor::Red) => {
}
}
}
}
pub fn print_incremental_info(&self) {
if let Some(data) = &self.data {
data.current.encoder.borrow().print_incremental_info(
data.current.total_read_count.load(Relaxed),
data.current.total_duplicate_read_count.load(Relaxed),
)
}
}
pub fn encode(&self, profiler: &SelfProfilerRef) -> FileEncodeResult {
if let Some(data) = &self.data {
data.current.encoder.steal().finish(profiler)
} else {
Ok(0)
}
}
pub(crate) fn next_virtual_depnode_index(&self) -> DepNodeIndex {
let index = self.virtual_dep_node_index.fetch_add(1, Relaxed);
DepNodeIndex::from_u32(index)
}
}
#[derive(Clone, Debug, Encodable, Decodable)]
pub struct WorkProduct {
pub cgu_name: String,
pub saved_files: FxHashMap<String, String>,
}
rustc_index::newtype_index! {
struct EdgeIndex { .. }
}
pub(super) struct CurrentDepGraph<K: DepKind> {
encoder: Steal<GraphEncoder<K>>,
new_node_to_index: Sharded<FxHashMap<DepNode<K>, DepNodeIndex>>,
prev_index_to_index: Lock<IndexVec<SerializedDepNodeIndex, Option<DepNodeIndex>>>,
#[cfg(debug_assertions)]
fingerprints: Lock<FxHashMap<DepNode<K>, Fingerprint>>,
#[cfg(debug_assertions)]
forbidden_edge: Option<EdgeFilter<K>>,
anon_id_seed: Fingerprint,
total_read_count: AtomicU64,
total_duplicate_read_count: AtomicU64,
node_intern_event_id: Option<EventId>,
}
impl<K: DepKind> CurrentDepGraph<K> {
fn new(
profiler: &SelfProfilerRef,
prev_graph_node_count: usize,
encoder: FileEncoder,
record_graph: bool,
record_stats: bool,
) -> CurrentDepGraph<K> {
use std::time::{SystemTime, UNIX_EPOCH};
let duration = SystemTime::now().duration_since(UNIX_EPOCH).unwrap();
let nanos = duration.as_secs() * 1_000_000_000 + duration.subsec_nanos() as u64;
let mut stable_hasher = StableHasher::new();
nanos.hash(&mut stable_hasher);
let anon_id_seed = stable_hasher.finish();
#[cfg(debug_assertions)]
let forbidden_edge = match env::var("RUST_FORBID_DEP_GRAPH_EDGE") {
Ok(s) => match EdgeFilter::new(&s) {
Ok(f) => Some(f),
Err(err) => panic!("RUST_FORBID_DEP_GRAPH_EDGE invalid: {}", err),
},
Err(_) => None,
};
static_assert_size!(Option<DepNodeIndex>, 4);
let new_node_count_estimate = 102 * prev_graph_node_count / 100 + 200;
let node_intern_event_id = profiler
.get_or_alloc_cached_string("incr_comp_intern_dep_graph_node")
.map(EventId::from_label);
CurrentDepGraph {
encoder: Steal::new(GraphEncoder::new(
encoder,
prev_graph_node_count,
record_graph,
record_stats,
)),
new_node_to_index: Sharded::new(|| {
FxHashMap::with_capacity_and_hasher(
new_node_count_estimate / sharded::SHARDS,
Default::default(),
)
}),
prev_index_to_index: Lock::new(IndexVec::from_elem_n(None, prev_graph_node_count)),
anon_id_seed,
#[cfg(debug_assertions)]
forbidden_edge,
#[cfg(debug_assertions)]
fingerprints: Lock::new(Default::default()),
total_read_count: AtomicU64::new(0),
total_duplicate_read_count: AtomicU64::new(0),
node_intern_event_id,
}
}
#[cfg(debug_assertions)]
fn record_edge(&self, dep_node_index: DepNodeIndex, key: DepNode<K>, fingerprint: Fingerprint) {
if let Some(forbidden_edge) = &self.forbidden_edge {
forbidden_edge.index_to_node.lock().insert(dep_node_index, key);
}
match self.fingerprints.lock().entry(key) {
Entry::Vacant(v) => {
v.insert(fingerprint);
}
Entry::Occupied(o) => {
assert_eq!(*o.get(), fingerprint, "Unstable fingerprints for {:?}", key);
}
}
}
fn intern_new_node(
&self,
profiler: &SelfProfilerRef,
key: DepNode<K>,
edges: EdgesVec,
current_fingerprint: Fingerprint,
) -> DepNodeIndex {
let dep_node_index = match self.new_node_to_index.get_shard_by_value(&key).lock().entry(key)
{
Entry::Occupied(entry) => *entry.get(),
Entry::Vacant(entry) => {
let dep_node_index =
self.encoder.borrow().send(profiler, key, current_fingerprint, edges);
entry.insert(dep_node_index);
dep_node_index
}
};
#[cfg(debug_assertions)]
self.record_edge(dep_node_index, key, current_fingerprint);
dep_node_index
}
fn intern_node(
&self,
profiler: &SelfProfilerRef,
prev_graph: &SerializedDepGraph<K>,
key: DepNode<K>,
edges: EdgesVec,
fingerprint: Option<Fingerprint>,
print_status: bool,
) -> (DepNodeIndex, Option<(SerializedDepNodeIndex, DepNodeColor)>) {
let print_status = cfg!(debug_assertions) && print_status;
let _node_intern_timer =
self.node_intern_event_id.map(|eid| profiler.generic_activity_with_event_id(eid));
if let Some(prev_index) = prev_graph.node_to_index_opt(&key) {
if let Some(fingerprint) = fingerprint {
if fingerprint == prev_graph.fingerprint_by_index(prev_index) {
if print_status {
eprintln!("[task::green] {:?}", key);
}
let mut prev_index_to_index = self.prev_index_to_index.lock();
let dep_node_index = match prev_index_to_index[prev_index] {
Some(dep_node_index) => dep_node_index,
None => {
let dep_node_index =
self.encoder.borrow().send(profiler, key, fingerprint, edges);
prev_index_to_index[prev_index] = Some(dep_node_index);
dep_node_index
}
};
#[cfg(debug_assertions)]
self.record_edge(dep_node_index, key, fingerprint);
(dep_node_index, Some((prev_index, DepNodeColor::Green(dep_node_index))))
} else {
if print_status {
eprintln!("[task::red] {:?}", key);
}
let mut prev_index_to_index = self.prev_index_to_index.lock();
let dep_node_index = match prev_index_to_index[prev_index] {
Some(dep_node_index) => dep_node_index,
None => {
let dep_node_index =
self.encoder.borrow().send(profiler, key, fingerprint, edges);
prev_index_to_index[prev_index] = Some(dep_node_index);
dep_node_index
}
};
#[cfg(debug_assertions)]
self.record_edge(dep_node_index, key, fingerprint);
(dep_node_index, Some((prev_index, DepNodeColor::Red)))
}
} else {
if print_status {
eprintln!("[task::unknown] {:?}", key);
}
let mut prev_index_to_index = self.prev_index_to_index.lock();
let dep_node_index = match prev_index_to_index[prev_index] {
Some(dep_node_index) => dep_node_index,
None => {
let dep_node_index =
self.encoder.borrow().send(profiler, key, Fingerprint::ZERO, edges);
prev_index_to_index[prev_index] = Some(dep_node_index);
dep_node_index
}
};
#[cfg(debug_assertions)]
self.record_edge(dep_node_index, key, Fingerprint::ZERO);
(dep_node_index, Some((prev_index, DepNodeColor::Red)))
}
} else {
if print_status {
eprintln!("[task::new] {:?}", key);
}
let fingerprint = fingerprint.unwrap_or(Fingerprint::ZERO);
let dep_node_index = self.intern_new_node(profiler, key, edges, fingerprint);
(dep_node_index, None)
}
}
fn promote_node_and_deps_to_current(
&self,
profiler: &SelfProfilerRef,
prev_graph: &SerializedDepGraph<K>,
prev_index: SerializedDepNodeIndex,
) -> DepNodeIndex {
self.debug_assert_not_in_new_nodes(prev_graph, prev_index);
let mut prev_index_to_index = self.prev_index_to_index.lock();
match prev_index_to_index[prev_index] {
Some(dep_node_index) => dep_node_index,
None => {
let key = prev_graph.index_to_node(prev_index);
let edges = prev_graph
.edge_targets_from(prev_index)
.iter()
.map(|i| prev_index_to_index[*i].unwrap())
.collect();
let fingerprint = prev_graph.fingerprint_by_index(prev_index);
let dep_node_index = self.encoder.borrow().send(profiler, key, fingerprint, edges);
prev_index_to_index[prev_index] = Some(dep_node_index);
#[cfg(debug_assertions)]
self.record_edge(dep_node_index, key, fingerprint);
dep_node_index
}
}
}
#[inline]
fn debug_assert_not_in_new_nodes(
&self,
prev_graph: &SerializedDepGraph<K>,
prev_index: SerializedDepNodeIndex,
) {
let node = &prev_graph.index_to_node(prev_index);
debug_assert!(
!self.new_node_to_index.get_shard_by_value(node).lock().contains_key(node),
"node from previous graph present in new node collection"
);
}
}
const TASK_DEPS_READS_CAP: usize = 8;
type EdgesVec = SmallVec<[DepNodeIndex; TASK_DEPS_READS_CAP]>;
#[derive(Debug, Clone, Copy)]
pub enum TaskDepsRef<'a, K: DepKind> {
Allow(&'a Lock<TaskDeps<K>>),
Ignore,
Forbid,
}
#[derive(Debug)]
pub struct TaskDeps<K: DepKind> {
#[cfg(debug_assertions)]
node: Option<DepNode<K>>,
reads: EdgesVec,
read_set: FxHashSet<DepNodeIndex>,
phantom_data: PhantomData<DepNode<K>>,
}
impl<K: DepKind> Default for TaskDeps<K> {
fn default() -> Self {
Self {
#[cfg(debug_assertions)]
node: None,
reads: EdgesVec::new(),
read_set: FxHashSet::default(),
phantom_data: PhantomData,
}
}
}
struct DepNodeColorMap {
values: IndexVec<SerializedDepNodeIndex, AtomicU32>,
}
const COMPRESSED_NONE: u32 = 0;
const COMPRESSED_RED: u32 = 1;
const COMPRESSED_FIRST_GREEN: u32 = 2;
impl DepNodeColorMap {
fn new(size: usize) -> DepNodeColorMap {
DepNodeColorMap { values: (0..size).map(|_| AtomicU32::new(COMPRESSED_NONE)).collect() }
}
#[inline]
fn get(&self, index: SerializedDepNodeIndex) -> Option<DepNodeColor> {
match self.values[index].load(Ordering::Acquire) {
COMPRESSED_NONE => None,
COMPRESSED_RED => Some(DepNodeColor::Red),
value => {
Some(DepNodeColor::Green(DepNodeIndex::from_u32(value - COMPRESSED_FIRST_GREEN)))
}
}
}
fn insert(&self, index: SerializedDepNodeIndex, color: DepNodeColor) {
self.values[index].store(
match color {
DepNodeColor::Red => COMPRESSED_RED,
DepNodeColor::Green(index) => index.as_u32() + COMPRESSED_FIRST_GREEN,
},
Ordering::Release,
)
}
}