Sibling articles under this feature previously restated requirements in inconsistent forms.
Examples
Platform spec article
Examples
Spec standingStandard
-
This feature hub owns normative MUST/SHOULD contract text for Crate-to-spec anchors.
Context
Decision
This feature hub owns normative MUST/SHOULD contract text. Sibling articles must not redefine hub requirements and should link here for authority.
Consequences
Contract changes start on the hub or in linked ADRs, then propagate to articles and implementation anchors.
Verification anchors
site/website/src/content/docs/platform-spec/compiler/implementation-map/crate-to-spec-anchors/index.mdxarticle bundle under the same feature directory.
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Platform-spec text supersedes informal crate comments for Crate-to-spec anchors.
Context
Implementation crates accumulated informal notes that diverged from published contracts.
Decision
Normative platform-spec prose and ADRs under this feature supersede informal comments in implementation crates until explicitly migrated into spec text.
Consequences
Engineers file spec/ADR updates when behavior changes; crate comments are non-authoritative for conformance arguments.
Verification anchors
compiler/crates/beskid_analysis/
-
Canonical index from compiler crates to platform-spec features.
Context
Crate references were scattered across hubs without a single ownership surface.
Decision
This feature hub is the canonical map from
compiler/crates/*to platform-spec features; other pages link here instead of duplicating tables.Consequences
New crates require anchor rows before Standard promotion of dependent features.
Verification anchors
- Implementation-map articles and
compiler/Cargo.tomlworkspace layout.
- Implementation-map articles and
- Contracts and edge cases Normative guarantees and known edge cases for `Crate-to-spec anchors`.
- Design model Conceptual model for `Crate-to-spec anchors` and its subsystem boundaries.
- Examples Practical examples that demonstrate `Crate-to-spec anchors` behavior.
- FAQ and troubleshooting Common questions and debugging guidance for `Crate-to-spec anchors`.
- Flow and algorithm End-to-end control flow and major algorithmic steps for `Crate-to-spec anchors`.
- Verification and traceability How `Crate-to-spec anchors` requirements map to tests and implementation anchors.
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| Section id | Required | Found |
|---|---|---|
what-this-feature-specifies | yes | yes |
implementation-anchors | yes | yes |
Full tree: run pnpm verify:platform-spec-layout (writes src/generated/platform-spec-layout-report.json).
Example 1: Happy path
Section titled “Example 1: Happy path”A standard project exercises the expected producer -> consumer handoff with no contract violations. Trace this via:
- “beskid_analysis
-> parser/resolution/semantic leaves - “beskid_abi
andbeskid_runtime-> execution ABI/runtime leaves
Example 2: Contract mismatch
Section titled “Example 2: Contract mismatch”Intentionally alter a boundary definition (for example, a symbol or structure shape), then run the related conformance suite. The expected result is a deterministic failure that identifies the mismatched boundary.
Example 3: Regression-proofing a fix
Section titled “Example 3: Regression-proofing a fix”After applying a fix, add or update a focused fixture in the nearest test crate and rerun wider suites so the behavior remains locked for future refactors.