cdf4049016
EquipmentDataModel now carries an EptStateMachine as a value member alongside the other top-level state machines. Server installs a state-change handler that maps every EPT transition to a CEID emission through the existing emit_event path: 1100 NonScheduledTime 1103 Engineering 1101 ScheduledDowntime 1104 Standby 1102 UnscheduledDowntime 1105 Productive CEIDs land in the 1100+ block to keep clear of the demo equipment.yaml (100s/200s/400s) and E90 (900s). Log lines include the dwell time of the previous state so trace-level diagnostics show utilization without extra tooling. Application code drives transitions by calling model->ept.on_event(...); the existing event-report machinery (subscription state, S6F11 batching, spool) gates wire emission so EPT events spool on offline hosts like every other CEID. Closes Tranche F — E116 Equipment Performance Tracking end-to-end. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
77 lines
3.0 KiB
C++
77 lines
3.0 KiB
C++
#pragma once
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#include "secsgem/gem/store/alarms.hpp"
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#include "secsgem/gem/store/carriers.hpp"
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#include "secsgem/gem/store/clock.hpp"
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#include "secsgem/gem/ept_state.hpp"
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#include "secsgem/gem/store/control_jobs.hpp"
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#include "secsgem/gem/store/equipment_constants.hpp"
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#include "secsgem/gem/store/event_reports.hpp"
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#include "secsgem/gem/store/exceptions.hpp"
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#include "secsgem/gem/store/host_commands.hpp"
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#include "secsgem/gem/store/limits.hpp"
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#include "secsgem/gem/store/process_jobs.hpp"
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#include "secsgem/gem/store/substrates.hpp"
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#include "secsgem/gem/store/recipes.hpp"
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#include "secsgem/gem/store/spool.hpp"
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#include "secsgem/gem/store/status_variables.hpp"
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#include "secsgem/gem/store/trace.hpp"
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namespace secsgem::gem {
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// Composite over the focused stores covering every GEM data category.
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// Each store is independently testable and independently usable — the
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// application can keep a reference to just `alarms` and ignore the rest
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// if that's all it needs. Variable lookups span SVIDs and DVIDs through
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// this composite (the host's view per E30 §6.11).
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struct EquipmentDataModel {
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StatusVariableStore svids;
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DataVariableStore dvids;
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EquipmentConstantStore ecids;
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EventReportSubscriptions events;
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AlarmRegistry alarms;
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RecipeStore recipes;
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Clock clock;
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HostCommandRegistry commands;
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SpoolStore spool;
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LimitMonitorStore limits;
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TraceStore traces;
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ProcessJobStore process_jobs;
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ControlJobStore control_jobs;
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ExceptionStore exceptions;
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CarrierStore carriers;
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LoadPortStore load_ports;
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SubstrateStore substrates;
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EptStateMachine ept;
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// Convenience: VID -> value lookup spanning SVIDs and DVIDs.
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std::optional<s2::Item> vid_value(uint32_t vid) const {
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if (auto v = svids.value(vid)) return v;
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if (auto v = dvids.value(vid)) return v;
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return std::nullopt;
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}
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bool vid_exists(uint32_t vid) const {
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return svids.has(vid) || dvids.has(vid);
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}
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// Sugar that adapts the EventReportSubscriptions API to the host-supplied
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// VID list shape (matches what parse_s2f33 / parse_s2f35 yield).
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DefineReportAck define_reports(
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const std::vector<std::pair<uint32_t, std::vector<uint32_t>>>& rows) {
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return events.define_reports(rows, [this](uint32_t vid) { return vid_exists(vid); });
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}
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LinkEventAck link_event_reports(
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const std::vector<std::pair<uint32_t, std::vector<uint32_t>>>& rows) {
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return events.link_event_reports(rows);
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}
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EnableEventAck enable_events(bool enable, const std::vector<uint32_t>& ceids) {
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return events.enable_events(enable, ceids);
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}
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bool is_event_enabled(uint32_t ceid) const { return events.is_enabled(ceid); }
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std::vector<ReportData> compose_reports_for(uint32_t ceid) const {
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return events.compose_for(ceid, [this](uint32_t vid) { return vid_value(vid); });
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}
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};
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} // namespace secsgem::gem
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