/*----------------------------------------------------------------------------*/ /* Copyright (c) 2019 FIRST. All Rights Reserved. */ /* Open Source Software - may be modified and shared by FRC teams. The code */ /* must be accompanied by the FIRST BSD license file in the root directory of */ /* the project. */ /*----------------------------------------------------------------------------*/ #include "frc/smartdashboard/SendableRegistry.h" #include #include #include #include #include #include "frc/smartdashboard/Sendable.h" #include "frc/smartdashboard/SendableBuilderImpl.h" using namespace frc; struct SendableRegistry::Impl { struct Component { Sendable* sendable = nullptr; SendableBuilderImpl builder; std::string name; std::string subsystem = "Ungrouped"; Sendable* parent = nullptr; bool liveWindow = false; wpi::SmallVector, 2> data; void SetName(const wpi::Twine& moduleType, int channel) { name = (moduleType + wpi::Twine('[') + wpi::Twine(channel) + wpi::Twine(']')) .str(); } void SetName(const wpi::Twine& moduleType, int moduleNumber, int channel) { name = (moduleType + wpi::Twine('[') + wpi::Twine(moduleNumber) + wpi::Twine(',') + wpi::Twine(channel) + wpi::Twine(']')) .str(); } }; wpi::recursive_mutex mutex; wpi::UidVector, 32> components; wpi::DenseMap componentMap; int nextDataHandle = 0; Component& GetOrAdd(void* sendable, UID* uid = nullptr); }; SendableRegistry::Impl::Component& SendableRegistry::Impl::GetOrAdd( void* sendable, UID* uid) { UID& compUid = componentMap[sendable]; if (compUid == 0) compUid = components.emplace_back(std::make_unique()) + 1; if (uid) *uid = compUid; return *components[compUid - 1]; } SendableRegistry& SendableRegistry::GetInstance() { static SendableRegistry instance; return instance; } void SendableRegistry::Add(Sendable* sendable, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.name = name.str(); } void SendableRegistry::Add(Sendable* sendable, const wpi::Twine& moduleType, int channel) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.SetName(moduleType, channel); } void SendableRegistry::Add(Sendable* sendable, const wpi::Twine& moduleType, int moduleNumber, int channel) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.SetName(moduleType, moduleNumber, channel); } void SendableRegistry::Add(Sendable* sendable, const wpi::Twine& subsystem, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.name = name.str(); comp.subsystem = subsystem.str(); } void SendableRegistry::AddLW(Sendable* sendable, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.liveWindow = true; comp.name = name.str(); } void SendableRegistry::AddLW(Sendable* sendable, const wpi::Twine& moduleType, int channel) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.liveWindow = true; comp.SetName(moduleType, channel); } void SendableRegistry::AddLW(Sendable* sendable, const wpi::Twine& moduleType, int moduleNumber, int channel) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.liveWindow = true; comp.SetName(moduleType, moduleNumber, channel); } void SendableRegistry::AddLW(Sendable* sendable, const wpi::Twine& subsystem, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(sendable); comp.sendable = sendable; comp.liveWindow = true; comp.name = name.str(); comp.subsystem = subsystem.str(); } void SendableRegistry::AddChild(Sendable* parent, void* child) { std::scoped_lock lock(m_impl->mutex); auto& comp = m_impl->GetOrAdd(child); comp.parent = parent; } bool SendableRegistry::Remove(Sendable* sendable) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return false; UID compUid = it->getSecond(); m_impl->components.erase(compUid - 1); m_impl->componentMap.erase(it); return true; } void SendableRegistry::Move(Sendable* to, Sendable* from) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(from); if (it == m_impl->componentMap.end()) return; UID compUid = it->getSecond(); m_impl->componentMap.erase(it); m_impl->componentMap[to] = compUid; auto& comp = *m_impl->components[compUid - 1]; comp.sendable = to; if (comp.builder.HasTable()) { // rebuild builder, as lambda captures can point to "from" comp.builder.ClearProperties(); to->InitSendable(comp.builder); } } bool SendableRegistry::Contains(const Sendable* sendable) const { std::scoped_lock lock(m_impl->mutex); return m_impl->componentMap.count(sendable) != 0; } std::string SendableRegistry::GetName(const Sendable* sendable) const { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return std::string{}; return m_impl->components[it->getSecond() - 1]->name; } void SendableRegistry::SetName(Sendable* sendable, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->name = name.str(); } void SendableRegistry::SetName(Sendable* sendable, const wpi::Twine& moduleType, int channel) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->SetName(moduleType, channel); } void SendableRegistry::SetName(Sendable* sendable, const wpi::Twine& moduleType, int moduleNumber, int channel) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->SetName(moduleType, moduleNumber, channel); } void SendableRegistry::SetName(Sendable* sendable, const wpi::Twine& subsystem, const wpi::Twine& name) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; auto& comp = *m_impl->components[it->getSecond() - 1]; comp.name = name.str(); comp.subsystem = subsystem.str(); } std::string SendableRegistry::GetSubsystem(const Sendable* sendable) const { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return std::string{}; return m_impl->components[it->getSecond() - 1]->subsystem; } void SendableRegistry::SetSubsystem(Sendable* sendable, const wpi::Twine& subsystem) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->subsystem = subsystem.str(); } int SendableRegistry::GetDataHandle() { std::scoped_lock lock(m_impl->mutex); return m_impl->nextDataHandle++; } std::shared_ptr SendableRegistry::SetData(Sendable* sendable, int handle, std::shared_ptr data) { assert(handle >= 0); std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return nullptr; auto& comp = *m_impl->components[it->getSecond() - 1]; std::shared_ptr rv; if (static_cast(handle) < comp.data.size()) rv = std::move(comp.data[handle]); else comp.data.resize(handle + 1); comp.data[handle] = std::move(data); return rv; } std::shared_ptr SendableRegistry::GetData(Sendable* sendable, int handle) { assert(handle >= 0); std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return nullptr; auto& comp = *m_impl->components[it->getSecond() - 1]; if (static_cast(handle) >= comp.data.size()) return nullptr; return comp.data[handle]; } void SendableRegistry::EnableLiveWindow(Sendable* sendable) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->liveWindow = true; } void SendableRegistry::DisableLiveWindow(Sendable* sendable) { std::scoped_lock lock(m_impl->mutex); auto it = m_impl->componentMap.find(sendable); if (it == m_impl->componentMap.end()) return; m_impl->components[it->getSecond() - 1]->liveWindow = false; } SendableRegistry::UID SendableRegistry::GetUniqueId(Sendable* sendable) { std::scoped_lock lock(m_impl->mutex); UID uid; auto& comp = m_impl->GetOrAdd(sendable, &uid); comp.sendable = sendable; return uid; } Sendable* SendableRegistry::GetSendable(UID uid) { if (uid == 0) return nullptr; std::scoped_lock lock(m_impl->mutex); return m_impl->components[uid - 1]->sendable; } void SendableRegistry::Publish(UID sendableUid, std::shared_ptr table) { std::scoped_lock lock(m_impl->mutex); if (sendableUid == 0) return; auto& comp = *m_impl->components[sendableUid - 1]; comp.builder = SendableBuilderImpl{}; // clear any current builder comp.builder.SetTable(table); comp.sendable->InitSendable(comp.builder); comp.builder.UpdateTable(); comp.builder.StartListeners(); } void SendableRegistry::Update(UID sendableUid) { if (sendableUid == 0) return; std::scoped_lock lock(m_impl->mutex); m_impl->components[sendableUid - 1]->builder.UpdateTable(); } void SendableRegistry::ForeachLiveWindow( int dataHandle, wpi::function_ref callback) const { assert(dataHandle >= 0); std::scoped_lock lock(m_impl->mutex); wpi::SmallVector components; for (auto&& comp : m_impl->components) components.emplace_back(comp.get()); for (auto comp : components) { if (comp->sendable && comp->liveWindow) { if (static_cast(dataHandle) >= comp->data.size()) comp->data.resize(dataHandle + 1); CallbackData cbdata{comp->sendable, comp->name, comp->subsystem, comp->parent, comp->data[dataHandle], comp->builder}; callback(cbdata); } } } SendableRegistry::SendableRegistry() : m_impl(new Impl) {}