// Copyright 2015 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "VideoCommon/AsyncRequests.h" #include #include "Core/System.h" #include "VideoCommon/BoundingBox.h" #include "VideoCommon/Fifo.h" #include "VideoCommon/Present.h" #include "VideoCommon/RenderBase.h" #include "VideoCommon/Statistics.h" #include "VideoCommon/VertexManagerBase.h" #include "VideoCommon/VideoBackendBase.h" #include "VideoCommon/VideoCommon.h" #include "VideoCommon/VideoEvents.h" #include "VideoCommon/VideoState.h" AsyncRequests AsyncRequests::s_singleton; AsyncRequests::AsyncRequests() = default; void AsyncRequests::PullEventsInternal() { // This is only called if the queue isn't empty. // So just flush the pipeline to get accurate results. g_vertex_manager->Flush(); std::unique_lock lock(m_mutex); m_empty.Set(); while (!m_queue.empty()) { Event e = m_queue.front(); // try to merge as many efb pokes as possible // it's a bit hacky, but some games render a complete frame in this way if ((e.type == Event::EFB_POKE_COLOR || e.type == Event::EFB_POKE_Z)) { m_merged_efb_pokes.clear(); Event first_event = m_queue.front(); const auto t = first_event.type == Event::EFB_POKE_COLOR ? EFBAccessType::PokeColor : EFBAccessType::PokeZ; do { e = m_queue.front(); EfbPokeData d; d.data = e.efb_poke.data; d.x = e.efb_poke.x; d.y = e.efb_poke.y; m_merged_efb_pokes.push_back(d); m_queue.pop(); } while (!m_queue.empty() && m_queue.front().type == first_event.type); lock.unlock(); g_renderer->PokeEFB(t, m_merged_efb_pokes.data(), m_merged_efb_pokes.size()); lock.lock(); continue; } lock.unlock(); HandleEvent(e); lock.lock(); m_queue.pop(); } if (m_wake_me_up_again) { m_wake_me_up_again = false; m_cond.notify_all(); } } void AsyncRequests::PushEvent(const AsyncRequests::Event& event, bool blocking) { std::unique_lock lock(m_mutex); if (m_passthrough) { HandleEvent(event); return; } m_empty.Clear(); m_wake_me_up_again |= blocking; if (!m_enable) return; m_queue.push(event); auto& system = Core::System::GetInstance(); system.GetFifo().RunGpu(); if (blocking) { m_cond.wait(lock, [this] { return m_queue.empty(); }); } } void AsyncRequests::WaitForEmptyQueue() { std::unique_lock lock(m_mutex); m_cond.wait(lock, [this] { return m_queue.empty(); }); } void AsyncRequests::SetEnable(bool enable) { std::unique_lock lock(m_mutex); m_enable = enable; if (!enable) { // flush the queue on disabling while (!m_queue.empty()) m_queue.pop(); if (m_wake_me_up_again) m_cond.notify_all(); } } void AsyncRequests::HandleEvent(const AsyncRequests::Event& e) { switch (e.type) { case Event::EFB_POKE_COLOR: { INCSTAT(g_stats.this_frame.num_efb_pokes); EfbPokeData poke = {e.efb_poke.x, e.efb_poke.y, e.efb_poke.data}; g_renderer->PokeEFB(EFBAccessType::PokeColor, &poke, 1); } break; case Event::EFB_POKE_Z: { INCSTAT(g_stats.this_frame.num_efb_pokes); EfbPokeData poke = {e.efb_poke.x, e.efb_poke.y, e.efb_poke.data}; g_renderer->PokeEFB(EFBAccessType::PokeZ, &poke, 1); } break; case Event::EFB_PEEK_COLOR: INCSTAT(g_stats.this_frame.num_efb_peeks); *e.efb_peek.data = g_renderer->AccessEFB(EFBAccessType::PeekColor, e.efb_peek.x, e.efb_peek.y, 0); break; case Event::EFB_PEEK_Z: INCSTAT(g_stats.this_frame.num_efb_peeks); *e.efb_peek.data = g_renderer->AccessEFB(EFBAccessType::PeekZ, e.efb_peek.x, e.efb_peek.y, 0); break; case Event::SWAP_EVENT: g_presenter->ViSwap(e.swap_event.xfbAddr, e.swap_event.fbWidth, e.swap_event.fbStride, e.swap_event.fbHeight, e.time); break; case Event::BBOX_READ: *e.bbox.data = g_bounding_box->Get(e.bbox.index); break; case Event::FIFO_RESET: Core::System::GetInstance().GetFifo().ResetVideoBuffer(); break; case Event::PERF_QUERY: g_perf_query->FlushResults(); break; case Event::DO_SAVE_STATE: VideoCommon_DoState(*e.do_save_state.p); break; } } void AsyncRequests::SetPassthrough(bool enable) { std::unique_lock lock(m_mutex); m_passthrough = enable; }