Files
punktfunk/crates/pyrowave-sys/vendor/pyrowave/Granite/event/event.cpp
T
enricobuehler 4c3b11445c feat(host): vendor PyroWave + minimal Granite subset as crates/pyrowave-sys
Phase 0 of design/pyrowave-codec-plan.md — the opt-in wired-LAN ultra-low-
latency codec. Vendored at upstream 509e4f88 (API 0.4.0, Granite 44362775,
volk + vulkan-headers pins in PUNKTFUNK-VENDOR.txt), pruned to the 6.6 MB
the standalone no-renderer build needs; scripts/vendor-pyrowave.sh
reproduces the tree (a pin bump is protocol-affecting, plan §4.2).

build.rs drives the wrapper CMakeLists (static archives incl. a static
C-API lib upstream only ships shared) + bindgen over pyrowave.h; Linux and
Windows only, empty stub elsewhere (Apple gets a native Metal port, §4.7).
Offline-safe by construction: no network, no system lib, vendored Vulkan
headers — same model as the opus dep (flatpak builder has no network).

Phase-0 validation on .21 (RTX 5070 Ti, driver 610.43.03):
- upstream pyrowave-c-test + interop test (incl. dmabuf/DRM-modifier
  Vulkan<->Vulkan) pass, from the pristine AND the pruned tree
- GPU kernel times at ~1.6 bpp noise: encode/decode 0.090/0.042 ms @800p,
  0.146/0.067 @1080p, 0.226/0.103 @1440p, 0.477/0.201 @4K — order of
  magnitude under NVENC's 1-2 ms retrieve, CBR lands within ~100 B of
  target
- cargo test -p pyrowave-sys green (static link + API-version pin check)

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-15 00:35:10 +02:00

214 lines
6.4 KiB
C++

/* Copyright (c) 2017-2026 Hans-Kristian Arntzen
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "event.hpp"
#include <algorithm>
#include <assert.h>
namespace Granite
{
EventManager::~EventManager()
{
dispatch();
for (auto &event_type : latched_events)
{
for (auto &handler : event_type.handlers)
{
dispatch_down_events(event_type.queued_events, handler);
// Before the event manager dies, make sure no stale EventHandler objects try to unregister themselves.
handler.unregister_key->release_manager_reference();
}
}
}
void EventManager::dispatch()
{
for (auto &event_type : events)
{
auto &handlers = event_type.handlers;
auto &queued_events = event_type.queued_events;
auto itr = remove_if(begin(handlers), end(handlers), [&](const Handler &handler) {
for (auto &event : queued_events)
{
if (!handler.mem_fn(handler.handler, *event))
{
handler.unregister_key->release_manager_reference();
return true;
}
}
return false;
});
handlers.erase(itr, end(handlers));
queued_events.clear();
}
}
void EventManager::dispatch_event(std::vector<Handler> &handlers, const Event &e)
{
auto itr = remove_if(begin(handlers), end(handlers), [&](const Handler &handler) -> bool {
bool to_remove = !handler.mem_fn(handler.handler, e);
if (to_remove)
handler.unregister_key->release_manager_reference();
return to_remove;
});
handlers.erase(itr, end(handlers));
}
void EventManager::dispatch_up_events(std::vector<std::unique_ptr<Event>> &up_events, const LatchHandler &handler)
{
for (auto &event : up_events)
handler.up_fn(handler.handler, *event);
}
void EventManager::dispatch_down_events(std::vector<std::unique_ptr<Event>> &down_events, const LatchHandler &handler)
{
for (auto &event : down_events)
handler.down_fn(handler.handler, *event);
}
void EventManager::LatchEventTypeData::flush_recursive_handlers()
{
handlers.insert(end(handlers), begin(recursive_handlers), end(recursive_handlers));
recursive_handlers.clear();
}
void EventManager::EventTypeData::flush_recursive_handlers()
{
handlers.insert(end(handlers), begin(recursive_handlers), end(recursive_handlers));
recursive_handlers.clear();
}
void EventManager::dispatch_up_event(LatchEventTypeData &event_type, const Event &event)
{
event_type.dispatching = true;
for (auto &handler : event_type.handlers)
handler.up_fn(handler.handler, event);
event_type.flush_recursive_handlers();
event_type.dispatching = false;
}
void EventManager::dispatch_down_event(LatchEventTypeData &event_type, const Event &event)
{
event_type.dispatching = true;
for (auto &handler : event_type.handlers)
handler.down_fn(handler.handler, event);
event_type.flush_recursive_handlers();
event_type.dispatching = false;
}
void EventManager::unregister_handler(EventHandler *handler)
{
for (auto &event_type : events)
{
auto itr = remove_if(begin(event_type.handlers), end(event_type.handlers), [&](const Handler &h) -> bool {
bool to_remove = h.unregister_key == handler;
if (to_remove)
h.unregister_key->release_manager_reference();
return to_remove;
});
if (itr != end(event_type.handlers) && event_type.dispatching)
throw std::logic_error("Unregistering handlers while dispatching events.");
if (itr != end(event_type.handlers))
event_type.handlers.erase(itr, end(event_type.handlers));
}
}
void EventManager::unregister_latch_handler(EventHandler *handler)
{
for (auto &event_type : latched_events)
{
auto itr = remove_if(begin(event_type.handlers), end(event_type.handlers), [&](const LatchHandler &h) -> bool {
bool to_remove = h.unregister_key == handler;
if (to_remove)
h.unregister_key->release_manager_reference();
return to_remove;
});
if (itr != end(event_type.handlers))
event_type.handlers.erase(itr, end(event_type.handlers));
}
}
void EventManager::dequeue_latched(uint64_t cookie)
{
for (auto &event_type : latched_events)
{
auto &queued_events = event_type.queued_events;
if (event_type.enqueueing)
throw std::logic_error("Dequeueing latched while queueing events.");
event_type.enqueueing = true;
auto itr = remove_if(begin(queued_events), end(queued_events), [&](const std::unique_ptr<Event> &event) {
bool signal = event->get_cookie() == cookie;
if (signal)
dispatch_down_event(event_type, *event);
return signal;
});
event_type.enqueueing = false;
queued_events.erase(itr, end(queued_events));
}
}
void EventManager::dequeue_all_latched(EventType type)
{
auto &event_type = latched_events[type];
if (event_type.enqueueing)
throw std::logic_error("Dequeueing latched while queueing events.");
event_type.enqueueing = true;
for (auto &event : event_type.queued_events)
dispatch_down_event(event_type, *event);
event_type.queued_events.clear();
event_type.enqueueing = false;
}
void EventHandler::release_manager_reference()
{
assert(event_manager_ref_count > 0);
assert(event_manager);
if (--event_manager_ref_count == 0)
event_manager = nullptr;
}
void EventHandler::add_manager_reference(EventManager *manager)
{
assert(!event_manager_ref_count || manager == event_manager);
event_manager = manager;
event_manager_ref_count++;
}
EventHandler::~EventHandler()
{
if (event_manager)
event_manager->unregister_handler(this);
// Splitting the branch is significant since event manager can release its last reference in between.
if (event_manager)
event_manager->unregister_latch_handler(this);
assert(event_manager_ref_count == 0 && !event_manager);
}
}