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-rw-r--r--src/utils/SkThreadPool.cpp27
1 files changed, 20 insertions, 7 deletions
diff --git a/src/utils/SkThreadPool.cpp b/src/utils/SkThreadPool.cpp
index e078af3ba3..125a5d9b6a 100644
--- a/src/utils/SkThreadPool.cpp
+++ b/src/utils/SkThreadPool.cpp
@@ -28,7 +28,7 @@ static int num_cores() {
}
SkThreadPool::SkThreadPool(int count)
-: fDone(false) {
+: fState(kRunning_State), fBusyThreads(0) {
if (count < 0) count = num_cores();
// Create count threads, all running SkThreadPool::Loop.
for (int i = 0; i < count; i++) {
@@ -39,14 +39,14 @@ SkThreadPool::SkThreadPool(int count)
}
SkThreadPool::~SkThreadPool() {
- if (!fDone) {
+ if (kRunning_State == fState) {
this->wait();
}
}
void SkThreadPool::wait() {
fReady.lock();
- fDone = true;
+ fState = kWaiting_State;
fReady.broadcast();
fReady.unlock();
@@ -55,6 +55,7 @@ void SkThreadPool::wait() {
fThreads[i]->join();
SkDELETE(fThreads[i]);
}
+ SkASSERT(fQueue.isEmpty());
}
/*static*/ void SkThreadPool::Loop(void* arg) {
@@ -65,8 +66,14 @@ void SkThreadPool::wait() {
// We have to be holding the lock to read the queue and to call wait.
pool->fReady.lock();
while(pool->fQueue.isEmpty()) {
- // Is it time to die?
- if (pool->fDone) {
+ // Does the client want to stop and are all the threads ready to stop?
+ // If so, we move into the halting state, and whack all the threads so they notice.
+ if (kWaiting_State == pool->fState && pool->fBusyThreads == 0) {
+ pool->fState = kHalting_State;
+ pool->fReady.broadcast();
+ }
+ // Any time we find ourselves in the halting state, it's quitting time.
+ if (kHalting_State == pool->fState) {
pool->fReady.unlock();
return;
}
@@ -83,14 +90,20 @@ void SkThreadPool::wait() {
// Having claimed our SkRunnable, we now give up the lock while we run it.
// Otherwise, we'd only ever do work on one thread at a time, which rather
// defeats the point of this code.
+ pool->fBusyThreads++;
pool->fReady.unlock();
// OK, now really do the work.
r->fRunnable->run();
SkDELETE(r);
+
+ // Let everyone know we're not busy.
+ pool->fReady.lock();
+ pool->fBusyThreads--;
+ pool->fReady.unlock();
}
- SkASSERT(false); // Unreachable. The only exit happens when pool->fDone.
+ SkASSERT(false); // Unreachable. The only exit happens when pool->fState is kHalting_State.
}
void SkThreadPool::add(SkRunnable* r) {
@@ -105,7 +118,7 @@ void SkThreadPool::add(SkRunnable* r) {
// We have some threads. Queue it up!
fReady.lock();
- SkASSERT(!fDone); // We shouldn't be adding work to a pool that's shut down.
+ SkASSERT(fState != kHalting_State); // Shouldn't be able to add work when we're halting.
LinkedRunnable* linkedRunnable = SkNEW(LinkedRunnable);
linkedRunnable->fRunnable = r;
fQueue.addToHead(linkedRunnable);