feat(v3-batch3): B3-WP4 — {{equip}}/<RefName> reference-relative resolution

Replace the deleted equipment-base-prefix {{equip}} mechanism (impossible now
that equipment is reference-only) with per-reference resolution:
{{equip}}/<RefName> resolves through the owning equipment's UnsTagReference rows
(by effective name) to the backing raw tag's RawPath. Every unresolved <RefName>
is a clear deploy error + authoring rejection + Monaco diagnostic — preserving
"editor accepts <=> publish accepts".

Commons:
- EquipmentScriptPaths: delete DeriveEquipmentBase; SubstituteEquipmentToken now
  takes the equipment's reference map (effectiveName -> RawPath) and substitutes
  {{equip}}/<RefName> inside path literals (unresolved left intact, never throws);
  add ExtractEquipReferenceNames (path-literal scoped) +
  ExtractEquipReferenceNamesFromText (message templates). Slash syntax replaces
  the v2 dot joint.
- New EquipmentReferenceMap: shared, input-shape-agnostic builder (entity + JSON
  sides) over RawPathResolver — the single authority both compose seams + the
  validator use, so resolved RawPaths agree byte-for-byte.

Compose seams (byte-parity kept):
- AddressSpaceComposer.Compose + DeploymentArtifact.ParseComposition both build
  the per-equipment reference map from UnsTagReferences + Tags + raw topology and
  substitute VirtualTag AND ScriptedAlarm-predicate sources before dependency
  extraction (runtime dep refs = resolved RawPaths).

Deploy gate + authoring + editor:
- DraftValidator.ValidateEquipReferenceResolution: EquipReferenceUnresolved error
  for unresolved {{equip}}/<RefName> in VirtualTag/ScriptedAlarm scripts + alarm
  message-template tokens (naming script, equipment, missing ref).
- UnsTreeService.ValidateEquipTokenAsync (Wave-A M1): reference-relative authoring
  rejection, replacing the stale DeriveEquipmentBase(empty)->reject-all logic.
- ScriptAnalysisService: {{equip}}/ completion offers the equipment's reference
  effective names; DiagnoseAsync flags unresolved refs (OTSCRIPT_EQUIPREF) same as
  the deploy gate. Requests carry optional EquipmentId (threaded MonacoEditor ->
  monaco-init.js -> fetch bodies). IScriptTagCatalog.GetEquipmentRelativeLeavesAsync
  repurposed to GetEquipmentReferenceNamesAsync(equipmentId, filter).

Tests: EquipmentScriptPaths substitution/extraction (slash pinned); composer<->
artifact reference-resolution byte-parity; DraftValidator unresolved-ref;
ScriptAnalysis completion+diagnostic; M1 authoring gate. Build clean (0/0); all
five affected suites green.

Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
This commit is contained in:
Joseph Doherty
2026-07-16 06:58:17 -04:00
parent a88dc86173
commit dc0d7653b9
23 changed files with 1142 additions and 426 deletions
@@ -6,6 +6,18 @@ namespace ZB.MOM.WW.OtOpcUa.Commons.Tests;
public class EquipmentScriptPathsTests
{
// Effective-name → backing-tag RawPath map used across the substitution tests.
private static readonly IReadOnlyDictionary<string, string> RefMap =
new Dictionary<string, string>(StringComparer.Ordinal)
{
["Speed"] = "Cell1/Modbus/Dev1/Speed",
["Out"] = "Cell1/Modbus/Dev1/Out",
["A"] = "Cell1/Modbus/Dev1/A",
["B"] = "Cell1/Modbus/Dev1/B",
// an override-named reference: the effective name differs from the backing tag leaf name.
["MotorSpeed"] = "Cell1/Modbus/Dev1/raw_speed_01",
};
// ---- ExtractAlarmDependencyRefs (scripted-alarm dep graph; byte-parity seam) ----
[Fact]
@@ -33,123 +45,81 @@ public class EquipmentScriptPathsTests
.ShouldBe(["Line.Temp"]);
}
// ---- DeriveEquipmentBase ----
// ---- SubstituteEquipmentToken (v3 reference-relative, slash syntax) ----
[Fact]
public void DeriveEquipmentBase_returns_shared_prefix()
public void SubstituteEquipmentToken_resolves_ref_to_rawpath_inside_GetTag()
{
EquipmentScriptPaths
.DeriveEquipmentBase(["TestMachine_001.A", "TestMachine_001.B"])
.ShouldBe("TestMachine_001");
EquipmentScriptPaths.SubstituteEquipmentToken(
"ctx.GetTag(\"{{equip}}/Speed\")", RefMap)
.ShouldBe("ctx.GetTag(\"Cell1/Modbus/Dev1/Speed\")");
}
[Fact]
public void DeriveEquipmentBase_returns_null_when_prefixes_diverge()
public void SubstituteEquipmentToken_resolves_ref_inside_SetVirtualTag()
{
EquipmentScriptPaths
.DeriveEquipmentBase(["TestMachine_001.A", "DelmiaReceiver_001.B"])
.ShouldBeNull();
EquipmentScriptPaths.SubstituteEquipmentToken(
"ctx.SetVirtualTag(\"{{equip}}/Out\", x)", RefMap)
.ShouldBe("ctx.SetVirtualTag(\"Cell1/Modbus/Dev1/Out\", x)");
}
[Fact]
public void DeriveEquipmentBase_returns_null_for_empty_sequence()
public void SubstituteEquipmentToken_override_named_ref_resolves_to_its_backing_rawpath()
{
EquipmentScriptPaths
.DeriveEquipmentBase([])
.ShouldBeNull();
// Effective name "MotorSpeed" (a DisplayNameOverride) resolves to the backing tag's RawPath whose
// leaf name ("raw_speed_01") differs from the effective name — the override indirection.
EquipmentScriptPaths.SubstituteEquipmentToken(
"ctx.GetTag(\"{{equip}}/MotorSpeed\")", RefMap)
.ShouldBe("ctx.GetTag(\"Cell1/Modbus/Dev1/raw_speed_01\")");
}
[Fact]
public void DeriveEquipmentBase_returns_whole_value_when_no_dot()
public void SubstituteEquipmentToken_leaves_unresolved_ref_intact_without_throwing()
{
EquipmentScriptPaths
.DeriveEquipmentBase(["NoDot"])
.ShouldBe("NoDot");
}
[Fact]
public void DeriveEquipmentBase_skips_null_empty_and_whitespace_entries()
{
EquipmentScriptPaths
.DeriveEquipmentBase([null, "", " ", "TestMachine_001.A"])
.ShouldBe("TestMachine_001");
}
// ---- SubstituteEquipmentToken ----
[Fact]
public void SubstituteEquipmentToken_substitutes_inside_GetTag()
{
var result = EquipmentScriptPaths.SubstituteEquipmentToken(
"ctx.GetTag(\"{{equip}}.Source\")", "TestMachine_001");
result.ShouldContain("ctx.GetTag(\"TestMachine_001.Source\")");
}
[Fact]
public void SubstituteEquipmentToken_substitutes_inside_SetVirtualTag()
{
var result = EquipmentScriptPaths.SubstituteEquipmentToken(
"ctx.SetVirtualTag(\"{{equip}}.Out\", x)", "TestMachine_001");
result.ShouldContain("ctx.SetVirtualTag(\"TestMachine_001.Out\"");
// An unknown reference name is left un-substituted (the validator rejects it first at deploy).
var source = "ctx.GetTag(\"{{equip}}/Missing\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap).ShouldBe(source);
}
[Fact]
public void SubstituteEquipmentToken_leaves_comment_unchanged()
{
var source = "// uses {{equip}} here";
EquipmentScriptPaths.SubstituteEquipmentToken(source, "TestMachine_001")
.ShouldBe(source);
var source = "// uses {{equip}}/Speed here";
EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap).ShouldBe(source);
}
[Fact]
public void SubstituteEquipmentToken_leaves_logger_string_unchanged()
{
var source = "ctx.Logger.Information(\"{{equip}}\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, "TestMachine_001")
.ShouldBe(source);
var source = "ctx.Logger.Information(\"{{equip}}/Speed\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap).ShouldBe(source);
}
[Fact]
public void SubstituteEquipmentToken_substitutes_all_occurrences()
{
var source = "ctx.GetTag(\"{{equip}}.A\"); ctx.GetTag(\"{{equip}}.B\");";
var source = "ctx.GetTag(\"{{equip}}/A\"); ctx.GetTag(\"{{equip}}/B\");";
var result = EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap);
var result = EquipmentScriptPaths.SubstituteEquipmentToken(source, "TestMachine_001");
result.ShouldContain("ctx.GetTag(\"TestMachine_001.A\")");
result.ShouldContain("ctx.GetTag(\"TestMachine_001.B\")");
result.ShouldContain("ctx.GetTag(\"Cell1/Modbus/Dev1/A\")");
result.ShouldContain("ctx.GetTag(\"Cell1/Modbus/Dev1/B\")");
result.ShouldNotContain(EquipmentScriptPaths.EquipToken);
}
[Fact]
public void SubstituteEquipmentToken_is_identity_when_equipBase_is_null()
public void SubstituteEquipmentToken_is_identity_when_map_empty()
{
var source = "ctx.GetTag(\"{{equip}}.Source\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, null)
.ShouldBe(source);
}
[Fact]
public void SubstituteEquipmentToken_is_identity_when_equipBase_is_empty()
{
var source = "ctx.GetTag(\"{{equip}}.Source\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, "")
var source = "ctx.GetTag(\"{{equip}}/Speed\")";
EquipmentScriptPaths.SubstituteEquipmentToken(
source, new Dictionary<string, string>(StringComparer.Ordinal))
.ShouldBe(source);
}
[Fact]
public void SubstituteEquipmentToken_is_identity_when_token_absent()
{
var source = "ctx.GetTag(\"TestMachine_001.Source\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, "TestMachine_001")
.ShouldBe(source);
var source = "ctx.GetTag(\"Cell1/Modbus/Dev1/Speed\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap).ShouldBe(source);
}
[Fact]
@@ -157,10 +127,59 @@ public class EquipmentScriptPathsTests
{
// Documents the regex limitation: only "double-quote" literals are handled,
// matching the existing seam extractors. A raw-string literal is left as-is.
var source = "ctx.GetTag(\"\"\"{{equip}}.X\"\"\")";
var source = "ctx.GetTag(\"\"\"{{equip}}/Speed\"\"\")";
EquipmentScriptPaths.SubstituteEquipmentToken(source, RefMap).ShouldBe(source);
}
EquipmentScriptPaths.SubstituteEquipmentToken(source, "TestMachine_001")
.ShouldBe(source);
// ---- ExtractEquipReferenceNames (script path-literal scoped) ----
[Fact]
public void ExtractEquipReferenceNames_returns_distinct_refs_first_seen()
{
var source = "ctx.GetTag(\"{{equip}}/Speed\"); ctx.SetVirtualTag(\"{{equip}}/Out\", x); ctx.GetTag(\"{{equip}}/Speed\");";
EquipmentScriptPaths.ExtractEquipReferenceNames(source).ShouldBe(["Speed", "Out"]);
}
[Fact]
public void ExtractEquipReferenceNames_ignores_token_in_comment_or_logger()
{
// Only ctx.GetTag/SetVirtualTag path literals are scanned — a token in a comment / logger string
// is NOT reported (so it can never block a deploy).
var source = "// {{equip}}/InComment\nctx.Logger.Information(\"{{equip}}/InLog\"); ctx.GetTag(\"{{equip}}/Real\");";
EquipmentScriptPaths.ExtractEquipReferenceNames(source).ShouldBe(["Real"]);
}
[Fact]
public void ExtractEquipReferenceNames_supports_ref_names_with_spaces()
{
// The whole post-prefix literal content is the reference name — so a space-bearing effective name
// (valid raw name) is captured intact, matching what substitution resolves.
EquipmentScriptPaths.ExtractEquipReferenceNames("ctx.GetTag(\"{{equip}}/My Tag\")")
.ShouldBe(["My Tag"]);
}
[Theory]
[InlineData(null)]
[InlineData("")]
[InlineData("ctx.GetTag(\"Absolute/Path\")")]
public void ExtractEquipReferenceNames_empty_when_no_token(string? source)
{
EquipmentScriptPaths.ExtractEquipReferenceNames(source).ShouldBeEmpty();
}
// ---- ExtractEquipReferenceNamesFromText (message-template free text) ----
[Fact]
public void ExtractEquipReferenceNamesFromText_captures_refs_bounded_by_whitespace()
{
EquipmentScriptPaths.ExtractEquipReferenceNamesFromText("Temp {{equip}}/Speed exceeded on {{equip}}/Limit")
.ShouldBe(["Speed", "Limit"]);
}
[Fact]
public void ExtractEquipReferenceNamesFromText_empty_when_no_token()
{
EquipmentScriptPaths.ExtractEquipReferenceNamesFromText("plain message {Foo.Bar}").ShouldBeEmpty();
}
// ---- ExtractDependencyRefs ----
@@ -197,7 +216,7 @@ public class EquipmentScriptPathsTests
[Fact]
public void ContainsEquipToken_true_when_token_present()
{
EquipmentScriptPaths.ContainsEquipToken("ctx.GetTag(\"{{equip}}.X\")").ShouldBeTrue();
EquipmentScriptPaths.ContainsEquipToken("ctx.GetTag(\"{{equip}}/X\")").ShouldBeTrue();
}
[Fact]
@@ -217,7 +236,7 @@ public class EquipmentScriptPathsTests
[Theory]
[InlineData("return ctx.GetTag(\"TestMachine_020.TestChangingInt\").Value;", "TestMachine_020.TestChangingInt")]
[InlineData(" return ctx . GetTag ( \"A.B\" ) . Value ; ", "A.B")]
[InlineData("return ctx.GetTag(\"{{equip}}.Speed\").Value;", "{{equip}}.Speed")]
[InlineData("return ctx.GetTag(\"{{equip}}/Speed\").Value;", "{{equip}}/Speed")]
public void TryParseRelayBody_accepts_exact_passthrough(string src, string expectedRef)
{
EquipmentScriptPaths.TryParseRelayBody(src, out var r).ShouldBeTrue();