Files
secs-gem/include/secsgem/gem/data_model.hpp
T
raphael 82fac6fd17 H1: ModuleStateMachine + ModuleStore (E157 §6)
Per-module process-tracking state machine.  An E157 instance models a
single recipe step at a single module, with the canonical lifecycle:

  NotExecuting -> GeneralExecuting (StartGeneral)
                -> StepExecuting   (StartStep)
                -> StepCompleted   (CompleteStep)

Plus universal escape hatches: Reset returns any state to
NotExecuting; Abort terminates from any state to StepCompleted.

ModuleStore wraps the FSM with the now-standard pattern:
  - non-movable (this-capture lambdas)
  - per-module bind() carries current_substid + recipe_step
  - fire(module_id, event) delegates to the FSM
  - set_state_change_handler observes every transition with module_id

Joins EquipmentDataModel.  5 test cases cover happy path, Reset from
each interior state, Abort, store-level create dedup + bind, and the
multi-module change handler keying.

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-06-08 03:37:20 +02:00

81 lines
3.1 KiB
C++

#pragma once
#include "secsgem/gem/store/alarms.hpp"
#include "secsgem/gem/store/carriers.hpp"
#include "secsgem/gem/store/cem_objects.hpp"
#include "secsgem/gem/store/clock.hpp"
#include "secsgem/gem/ept_state.hpp"
#include "secsgem/gem/store/control_jobs.hpp"
#include "secsgem/gem/store/equipment_constants.hpp"
#include "secsgem/gem/store/event_reports.hpp"
#include "secsgem/gem/store/exceptions.hpp"
#include "secsgem/gem/store/host_commands.hpp"
#include "secsgem/gem/store/limits.hpp"
#include "secsgem/gem/store/modules.hpp"
#include "secsgem/gem/store/process_jobs.hpp"
#include "secsgem/gem/store/substrates.hpp"
#include "secsgem/gem/store/recipes.hpp"
#include "secsgem/gem/store/spool.hpp"
#include "secsgem/gem/store/status_variables.hpp"
#include "secsgem/gem/store/trace.hpp"
namespace secsgem::gem {
// Composite over the focused stores covering every GEM data category.
// Each store is independently testable and independently usable — the
// application can keep a reference to just `alarms` and ignore the rest
// if that's all it needs. Variable lookups span SVIDs and DVIDs through
// this composite (the host's view per E30 §6.11).
struct EquipmentDataModel {
StatusVariableStore svids;
DataVariableStore dvids;
EquipmentConstantStore ecids;
EventReportSubscriptions events;
AlarmRegistry alarms;
RecipeStore recipes;
Clock clock;
HostCommandRegistry commands;
SpoolStore spool;
LimitMonitorStore limits;
TraceStore traces;
ProcessJobStore process_jobs;
ControlJobStore control_jobs;
ExceptionStore exceptions;
CarrierStore carriers;
LoadPortStore load_ports;
SubstrateStore substrates;
EptStateMachine ept;
CemObjectStore cem;
ModuleStore modules;
// Convenience: VID -> value lookup spanning SVIDs and DVIDs.
std::optional<s2::Item> vid_value(uint32_t vid) const {
if (auto v = svids.value(vid)) return v;
if (auto v = dvids.value(vid)) return v;
return std::nullopt;
}
bool vid_exists(uint32_t vid) const {
return svids.has(vid) || dvids.has(vid);
}
// Sugar that adapts the EventReportSubscriptions API to the host-supplied
// VID list shape (matches what parse_s2f33 / parse_s2f35 yield).
DefineReportAck define_reports(
const std::vector<std::pair<uint32_t, std::vector<uint32_t>>>& rows) {
return events.define_reports(rows, [this](uint32_t vid) { return vid_exists(vid); });
}
LinkEventAck link_event_reports(
const std::vector<std::pair<uint32_t, std::vector<uint32_t>>>& rows) {
return events.link_event_reports(rows);
}
EnableEventAck enable_events(bool enable, const std::vector<uint32_t>& ceids) {
return events.enable_events(enable, ceids);
}
bool is_event_enabled(uint32_t ceid) const { return events.is_enabled(ceid); }
std::vector<ReportData> compose_reports_for(uint32_t ceid) const {
return events.compose_for(ceid, [this](uint32_t vid) { return vid_value(vid); });
}
};
} // namespace secsgem::gem