blob: 64f3902804f41b704c7238a6a4d4ecc0be8c7e67 [file] [log] [blame]
/*
* Copyright 2023 Google LLC
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "src/gpu/graphite/ProxyCache.h"
#include "include/core/SkBitmap.h"
#include "include/core/SkPixelRef.h"
#include "include/gpu/GpuTypes.h"
#include "src/core/SkMipmap.h"
#include "src/gpu/ResourceKey.h"
#include "src/gpu/graphite/RecorderPriv.h"
#include "src/gpu/graphite/Texture.h"
#include "src/gpu/graphite/TextureProxy.h"
#include "src/gpu/graphite/TextureUtils.h"
using namespace skia_private;
DECLARE_SKMESSAGEBUS_MESSAGE(skgpu::UniqueKeyInvalidatedMsg_Graphite, uint32_t,
/* AllowCopyableMessage= */ true)
namespace {
void make_bitmap_key(skgpu::UniqueKey* key, const SkBitmap& bm) {
SkASSERT(key);
SkIPoint origin = bm.pixelRefOrigin();
SkIRect subset = SkIRect::MakePtSize(origin, bm.dimensions());
static const skgpu::UniqueKey::Domain kProxyCacheDomain = skgpu::UniqueKey::GenerateDomain();
skgpu::UniqueKey::Builder builder(key, kProxyCacheDomain, 5, "ProxyCache");
builder[0] = bm.pixelRef()->getGenerationID();
builder[1] = subset.fLeft;
builder[2] = subset.fTop;
builder[3] = subset.fRight;
builder[4] = subset.fBottom;
}
sk_sp<SkIDChangeListener> make_unique_key_invalidation_listener(const skgpu::UniqueKey& key,
uint32_t recorderID) {
class Listener : public SkIDChangeListener {
public:
Listener(const skgpu::UniqueKey& key, uint32_t recorderUniqueID)
: fMsg(key, recorderUniqueID) {}
void changed() override {
SkMessageBus<skgpu::UniqueKeyInvalidatedMsg_Graphite, uint32_t>::Post(fMsg);
}
private:
skgpu::UniqueKeyInvalidatedMsg_Graphite fMsg;
};
return sk_make_sp<Listener>(key, recorderID);
}
} // anonymous namespace
namespace skgpu::graphite {
ProxyCache::ProxyCache(uint32_t recorderID) : fInvalidUniqueKeyInbox(recorderID) {
SkASSERT(recorderID != SK_InvalidGenID);
}
ProxyCache::~ProxyCache() {}
uint32_t ProxyCache::UniqueKeyHash::operator()(const UniqueKey& key) const {
return key.hash();
}
sk_sp<TextureProxy> ProxyCache::findOrCreateCachedProxy(Recorder* recorder,
const SkBitmap& bitmap,
std::string_view label) {
skgpu::UniqueKey key;
make_bitmap_key(&key, bitmap);
return this->findOrCreateCachedProxy(
recorder, key, &bitmap,
[](const void* context) { return *static_cast<const SkBitmap*>(context); },
label);
}
sk_sp<TextureProxy> ProxyCache::findOrCreateCachedProxy(Recorder* recorder,
const UniqueKey& key,
BitmapGeneratorContext context,
BitmapGeneratorFn generator,
std::string_view label) {
this->processInvalidKeyMsgs();
if (sk_sp<TextureProxy>* cached = fCache.find(key)) {
if (Resource* resource = (*cached)->texture()) {
resource->updateAccessTime();
}
return *cached;
}
SkBitmap bitmap = generator(context);
if (bitmap.empty()) {
return nullptr;
}
auto [ view, ct ] = MakeBitmapProxyView(recorder, bitmap, nullptr, Mipmapped::kNo,
Budgeted::kYes, label.empty() ? key.tag() : label);
if (view) {
// Since if the bitmap is held by more than just this function call (e.g. it likely came
// from findOrCreateCachedProxy() that takes an existing SkBitmap), it's worth adding a
// listener to remove them from the cache automatically when no one holds on to it anymore.
const bool addListener = !bitmap.pixelRef()->unique();
if (addListener) {
auto listener = make_unique_key_invalidation_listener(key, recorder->priv().uniqueID());
bitmap.pixelRef()->addGenIDChangeListener(std::move(listener));
}
fCache.set(key, view.refProxy());
}
return view.refProxy();
}
void ProxyCache::purgeAll() {
fCache.reset();
}
void ProxyCache::processInvalidKeyMsgs() {
TArray<skgpu::UniqueKeyInvalidatedMsg_Graphite> invalidKeyMsgs;
fInvalidUniqueKeyInbox.poll(&invalidKeyMsgs);
if (!invalidKeyMsgs.empty()) {
for (int i = 0; i < invalidKeyMsgs.size(); ++i) {
// TODO: this should stop crbug.com/1480570 for now but more investigation needs to be
// done into how we're getting into the situation where an invalid key has been
// purged from the cache prior to processing of the invalid key messages.
if (fCache.find(invalidKeyMsgs[i].key())) {
fCache.remove(invalidKeyMsgs[i].key());
}
}
}
}
void ProxyCache::freeUniquelyHeld() {
this->processInvalidKeyMsgs();
std::vector<skgpu::UniqueKey> toRemove;
fCache.foreach([&](const skgpu::UniqueKey& key, const sk_sp<TextureProxy>* proxy) {
if ((*proxy)->unique()) {
toRemove.push_back(key);
}
});
for (const skgpu::UniqueKey& k : toRemove) {
fCache.remove(k);
}
}
void ProxyCache::purgeProxiesNotUsedSince(const skgpu::StdSteadyClock::time_point* purgeTime) {
this->processInvalidKeyMsgs();
std::vector<skgpu::UniqueKey> toRemove;
fCache.foreach([&](const skgpu::UniqueKey& key, const sk_sp<TextureProxy>* proxy) {
if (Resource* resource = (*proxy)->texture();
resource &&
(!purgeTime || resource->lastAccessTime() < *purgeTime)) {
resource->setDeleteASAP();
toRemove.push_back(key);
}
});
for (const skgpu::UniqueKey& k : toRemove) {
fCache.remove(k);
}
}
#if defined(GRAPHITE_TEST_UTILS)
int ProxyCache::numCached() const {
return fCache.count();
}
sk_sp<TextureProxy> ProxyCache::find(const SkBitmap& bitmap) {
skgpu::UniqueKey key;
make_bitmap_key(&key, bitmap);
if (sk_sp<TextureProxy>* cached = fCache.find(key)) {
return *cached;
}
return nullptr;
}
void ProxyCache::forceProcessInvalidKeyMsgs() {
this->processInvalidKeyMsgs();
}
void ProxyCache::forceFreeUniquelyHeld() {
this->freeUniquelyHeld();
}
void ProxyCache::forcePurgeProxiesNotUsedSince(skgpu::StdSteadyClock::time_point purgeTime) {
this->purgeProxiesNotUsedSince(&purgeTime);
}
#endif // defined(GRAPHITE_TEST_UTILS)
} // namespace skgpu::graphite