/* * Copyright 2021 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/gpu/ganesh/GrRenderTaskCluster.h" #include "src/core/SkTHash.h" #include "src/gpu/ganesh/GrRenderTask.h" using namespace skia_private; // Uncomment to get lots of logging. #define CLUSTER_DEBUGF(...) //SkDebugf(__VA_ARGS__) static GrSurfaceProxy* first_target(GrRenderTask* task) { return task->target(0); } #ifdef SK_DEBUG [[maybe_unused]] static SkString describe_task(GrRenderTask* t) { if (GrSurfaceProxy* target = first_target(t)) { return SkStringPrintf("%s(%u)", target->getDebugName().c_str(), t->uniqueID()); } else { return SkStringPrintf("%u", t->uniqueID()); } } [[maybe_unused]] static SkString describe_tasks(SkSpan> collection) { SkString s; for (const sk_sp& t : collection) { s.appendf("%s ", describe_task(t.get()).c_str()); } return s; } [[maybe_unused]] static SkString describe_tasks(const SkTInternalLList& collection) { SkString s; for (GrRenderTask* t : collection) { s.appendf("%s ", describe_task(t).c_str()); } return s; } static void validate(SkSpan> input, const SkTInternalLList& llist) { // Check that we didn't break dependencies. THashSet seen; for (GrRenderTask* t : llist) { seen.add(t); for (GrRenderTask* dep : t->dependencies()) { SkASSERTF(seen.contains(dep), "%s came before dependency %s", describe_task(t).c_str(), describe_task(dep).c_str()); } } // Check that llist has the same entries as the input. for (const auto& orig : input) { seen.remove(orig.get()); } SkASSERT(seen.empty()); } #endif // SK_DEBUG // Returns whether `dependee` is a formal dependent or if it uses a surface `depender` targets. static bool depends_on(GrRenderTask* depender, GrRenderTask* dependee) { // Check if depender writes to something dependee reads. // TODO: Establish real DAG dependencies for this during recording? E.g. when a task adds a // target, search backward for the last task that uses the target and add a dep. for (int i = 0; i < depender->numTargets(); i++) { if (dependee->isUsed(depender->target(i))) { CLUSTER_DEBUGF("Cluster: Bail, %s can't write before %s reads from %s.\n", describe_task(depender).c_str(), describe_task(dependee).c_str(), depender->target(i)->getDebugName().c_str()); return true; } } // Check for a formal dependency. if (depender->dependsOn(dependee)) { CLUSTER_DEBUGF("Cluster: Bail, %s depends on %s.\n", describe_task(depender).c_str(), describe_task(dependee).c_str()); return true; } return false; } // Returns whether reordering occurred. static bool task_cluster_visit(GrRenderTask* task, SkTInternalLList* llist, THashMap* lastTaskMap) { CLUSTER_DEBUGF("Cluster: ***Step***\nLooking at %s\n", describe_task(task).c_str()); if (task->numTargets() != 1) { CLUSTER_DEBUGF("Cluster: %d targets. Emitting barriers.\n", task->numTargets()); // Tasks with 0 or multiple targets are treated as full barriers // for all their targets. for (int j = 0; j < task->numTargets(); j++) { if (lastTaskMap->find(task->target(0))) { lastTaskMap->remove(task->target(0)); } } return false; } GrSurfaceProxy* target = first_target(task); GrRenderTask* clusterTail = (lastTaskMap->find(target) ? *lastTaskMap->find(target) : nullptr); lastTaskMap->set(target, task); if (!clusterTail) { CLUSTER_DEBUGF("Cluster: Bail, no cluster to extend.\n"); return false; } CLUSTER_DEBUGF("Cluster: clusterTail is %s.\n", describe_task(clusterTail).c_str()); if (clusterTail == llist->tail()) { CLUSTER_DEBUGF("Cluster: Bail, cluster is already tail.\n"); return false; } GrRenderTask* movedHead = clusterTail->fNext; // Now, let's refer to the "cluster" as the chain of tasks with the same target, that we're // hoping to extend by reordering. Let "moved tasks" be the ones we want to move to extend the // cluster. GrRenderTask* clusterHead = clusterTail; while (clusterHead->fPrev && 1 == clusterHead->fPrev->numTargets() && target == first_target(clusterHead->fPrev)) { clusterHead = clusterHead->fPrev; } // We can't reorder if any moved task depends on anything in the cluster. // Time complexity here is high, but making a hash set is worse in profiling. for (GrRenderTask* moved = movedHead; moved; moved = moved->fNext) { for (GrRenderTask* passed = clusterHead; passed != movedHead; passed = passed->fNext) { if (depends_on(moved, passed)) { return false; } } } // Grab the moved tasks and pull them before clusterHead. for (GrRenderTask* moved = movedHead; moved;) { CLUSTER_DEBUGF("Cluster: Reorder %s behind %s.\n", describe_task(moved).c_str(), describe_task(clusterHead).c_str()); // Be careful to save fNext before each move. GrRenderTask* nextMoved = moved->fNext; llist->remove(moved); llist->addBefore(moved, clusterHead); moved = nextMoved; } return true; } bool GrClusterRenderTasks(SkSpan> input, SkTInternalLList* llist) { SkASSERT(llist->isEmpty()); if (input.size() < 3) { for (const auto& t : input) { llist->addToTail(t.get()); } return false; } CLUSTER_DEBUGF("Cluster: Original order is %s\n", describe_tasks(input).c_str()); THashMap lastTaskMap; bool didReorder = false; for (const auto& t : input) { didReorder |= task_cluster_visit(t.get(), llist, &lastTaskMap); llist->addToTail(t.get()); CLUSTER_DEBUGF("Cluster: Output order is now: %s\n", describe_tasks(*llist).c_str()); } #ifdef SK_DEBUG if (didReorder) { validate(input, *llist); } #endif return didReorder; } #undef CLUSTER_DEBUGF