Advanced-only `alter` entry word; ALTER TABLE <T> ADD COLUMN <col> <type>
[constraints] | DROP COLUMN <col> | RENAME COLUMN <old> TO <new> ->
SqlAlterTable, runtime-decomposed to the existing column executors
(do_add_column / do_drop_column / do_rename_column) — one undo step each,
no new worker layer. The COLUMN keyword is required (reserves bare
RENAME TO for 4h, ADD CONSTRAINT for 4g).
- ADD COLUMN takes NOT NULL / UNIQUE / DEFAULT / CHECK (no PK / inline
REFERENCES). do_add_column extended to consume the SQL raw-text
default_sql / check_sql (sql_expr is validate-only, the 4a.2
mechanism), reaching parity with CREATE TABLE's column constraints.
- Drop/rename column refuse a column any CHECK references — table-level
AND column-level (incl. a column's own self-check on rename) — the
4a.3 deferral, detected up-front by tokenizing the raw CHECK text
(skipping string literals). In the shared executors, so it guards both
the simple and SQL surfaces and fixes a latent rename-drift bug that
desynced the stored CHECK text and broke rebuild.
- SQL DROP COLUMN refuses an index-covered column (no --cascade SQL
spelling — matches SQLite + the simple default).
- The column executors and do_add_index gained an internal-__rdbms_*
guard (refuse as "no such table"), closing a pre-existing exposure on
both surfaces. (do_change_column_type / do_add_constraint /
do_add_relationship are a tracked follow-up.)
- `alter` is advanced-only; AlterTableAction::AddColumn is boxed
(clippy::large_enum_variant).
Docs: ADR-0035 status + §13 4e; ADR README; requirements.md Q1. Plan:
docs/plans/20260525-adr-0035-sql-ddl-4e.md.
Tests: 1854 passing / 0 failing / 0 skipped / 1 ignored; clippy clean.
Advanced-mode SQL CREATE [UNIQUE] INDEX [IF NOT EXISTS] [<name>] ON
<T> (cols) -> SqlCreateIndex and DROP INDEX [IF EXISTS] <name> ->
SqlDropIndex, both reusing the ADR-0025 executors (do_add_index /
do_drop_index), like 4c reused do_drop_table.
- CREATE UNIQUE INDEX admitted in advanced mode (ADR-0025 Amendment 1):
ADR-0025 deferred UNIQUE indexes for the simple-mode DSL, but advanced
mode trusts the user like SQL does. Adds an additive IndexSchema.unique
flag (project.yaml, serde-default, version stays 1); rebuild re-emits
CREATE UNIQUE INDEX; the redundant-set guard keys on (columns, unique).
Simple-mode `add unique index` stays deferred.
- IF [NOT] EXISTS on both forms reuses the 4c no-op-with-note skip
(journalled, not snapshotted) via CreateIndexOutcome / DropIndexOutcome.
- Unnamed CREATE INDEX auto-named (ADR-0025 convention); the [UNIQUE]
prefix is a concrete-keyword Choice and the optional name an on-led-first
selector (the drop-index selector precedent) — trap-safe.
- create/drop each gain a second advanced node; the existing all-candidates
dispatch handles it (locked by parse tests).
- Unique indexes marked [unique] in the structure view and items panel.
- do_add_index refuses internal __rdbms_* tables as "no such table",
closing a latent exposure on both the simple `add index` and the new
SQL CREATE INDEX surfaces (ADR-0025 Amendment 1).
Docs: ADR-0035 status + §13 4d + 4i; ADR-0025 Amendment 1; ADR README;
requirements.md Q1/C3. Plan: docs/plans/20260525-adr-0035-sql-ddl-4d.md.
Tests: 1834 passing / 0 failing / 0 skipped / 1 ignored; clippy clean.
Add advanced-mode SQL `DROP TABLE [IF EXISTS] <name>` -> SqlDropTable,
executing through the existing do_drop_table (cascade / inbound-
relationship refusal / metadata cleanup) — full parity with the simple
`drop table`. The only new behaviour is `IF EXISTS` as a
no-op-with-note: a new DropOutcome::Skipped mirroring
CreateOutcome::Skipped (journalled, no snapshot), rendered via a new
ddl.drop_skipped_absent note + DslDropSkipped event.
- Grammar: SQL_DROP_TABLE node (entry `drop`, shape `table [if exists]
<name> [;]`), registered Advanced. SQL-first dispatch: `drop table T`
-> SqlDropTable in advanced; `drop column`/`relationship`/`index`/
`constraint` fall back to the simple `drop` node (and still execute).
- Worker: Request::SqlDropTable + db.sql_drop_table; the if-exists-and-
absent arm journals + replies Skipped without a snapshot, else
snapshot_then(do_drop_table) -> Dropped.
- Completion: advanced `drop ` now surfaces the SQL `table` (the
shared-entry-word behaviour from `create`); test split into simple
(full DSL list) + advanced (SQL surface).
Known shared-entry-word completion unevenness (advanced `drop ` offers
only `table`; partial `drop rel` returns an empty list) deferred to 4i
(merge candidate sets for shared entry words) along with a flagged user
request to visually distinguish simple- vs advanced-mode completions in
the hint UI — tracked in ADR §13 4i (d)/(e), the 4c plan, and the
completion test. The DSL drops still parse + execute via fallback.
10 new tests (parse/builder + Tier-3: drop existing + one-undo-step +
restore, IF EXISTS skip + journal, plain-absent error, inbound refusal).
Docs: ADR-0035 Status/§13, README, requirements.md Q1.
Tests: 1805 passing, 0 failing, 1 ignored. Clippy clean.
Add foreign keys to advanced-mode SQL CREATE TABLE — the SQL spelling of
an ADR-0013 named relationship, created in the same transaction as the
table (one undo step).
- Grammar: inline `<col> … REFERENCES <parent>[(<col>)] [ON DELETE/UPDATE
…]` (a new column constraint) and table-level `[CONSTRAINT <name>]
FOREIGN KEY (<col>) REFERENCES …` (two new element branches — both
start on a concrete keyword, never a leading Optional, which would
abort the element Choice). Referential clauses reuse
shared::REFERENTIAL_CLAUSES.
- Builder: greedy FK-clause consumption (parens consumed internally so
they don't perturb the 4a.3 element-boundary depth tracker); inline FK
auto-named, table FK takes an optional CONSTRAINT name.
- Worker: do_create_table resolves + validates each FK before building
the DDL (self-ref validates against the in-statement columns/PK; bare
REFERENCES resolves to the parent's single-column PK, composite ->
error; PK-target + Type::fk_target_type compatibility), emits the
FOREIGN KEY clause identically to schema_to_ddl, and writes the
relationship metadata in the create transaction.
- Reuse: name/uniqueness/metadata-insert/type-compat factored into shared
helpers; do_add_relationship refactored to use them.
- FKs round-trip via the existing relationship plumbing (no new
persistence structures); describe surfaces the relationship.
Self-references and bare `REFERENCES <parent>` supported (user-confirmed).
Self-ref pre-submit indicator wrinkle deferred to 4i (tracked in ADR §13,
a code comment, and the plan).
DA/runda round added cross-cutting probes (FK survives the add-column
rebuild + a later rebuild_from_text; referential actions survive rebuild;
drop-child clears the relationship; drop-parent refused; bare self-ref
resolves to own PK) — all green, no fixes needed.
27 new tests (grammar/builder + Tier-3). Docs: ADR-0035 Status/§13,
README, requirements.md Q1.
Tests: 1795 passing, 0 failing, 1 ignored. Clippy clean.
Add table-level CHECK (e.g. `CREATE TABLE t (a int, b int, CHECK (a < b))`)
to advanced-mode SQL CREATE TABLE. Since SQLite exposes no PRAGMA for CHECK
constraints, a table-level CHECK cannot be read back from the engine and
becomes the source of truth in a new internal metadata table
`__rdbms_playground_table_checks (table_name, seq, check_expr)`.
- Grammar: new TABLE_CHECK element in ELEMENT_CHOICES.
- Builder: distinguishes a table-level CHECK from a column-level one by
element position (no column-def open in the element), using depth-aware
boundary tracking so a length-arg comma (`numeric(10,2)`) or a
table-PRIMARY KEY's inner comma is not mistaken for an element separator.
- Worker: do_create_table emits the CHECK clauses and writes the metadata
rows in its transaction; schema_to_ddl emits them identically on rebuild;
read_schema / read_schema_snapshot read them from the metadata table;
do_drop_table clears them.
- Persistence: TableSchema.check_constraints round-trips through project.yaml
(#[serde(default)], optional on read), mirroring unique_constraints.
- Composite UNIQUE deliberately stays PRAGMA-detected (engine-reportable,
unlike CHECK) — user-confirmed.
DA/runda round added cross-cutting tests and a forward-looking doc fix:
- table CHECK survives a rebuild triggered by `add column`, and a later
rebuild_from_text (the ADR-0013 rebuild primitive uses a raw DROP, so the
metadata rows keyed on the final name are preserved);
- dropping a column a table CHECK references fails cleanly (rollback, table
intact); detection is 4e, friendly wording is H1;
- dropping a table clears its CHECK metadata (no orphan rows on re-create);
- amended ADR §6 so 4h's RENAME also updates the new metadata table.
20 Tier-3 + 9 grammar/builder + 2 YAML tests. Docs: ADR-0035 Status/§13/§6,
README index, requirements.md Q1. Help/usage skeleton + describe display of
table-level constraints deferred to 4i (symmetric with 4a.2).
Tests: 1769 passing, 0 failing, 1 ignored. Clippy clean.
Survey of the constraint persistence machinery revealed that
table-level/multi-column CHECK needs a NEW __rdbms_* metadata table
(SQLite exposes no PRAGMA for CHECK), unlike per-column CHECK/DEFAULT
(reuse __rdbms_playground_columns.check_expr + PRAGMA dflt_value) and
composite UNIQUE (PRAGMA index_list origin 'u' + a TableSchema field).
User-confirmed split: 4a.2 = per-column CHECK/DEFAULT (raw sql_expr
text) + composite UNIQUE(a,b), no new internal table; 4a.3 = table-level
CHECK + the new metadata table. ADR §13 and README updated in lockstep;
4a.2 plan doc added.
Command + builder + worker for advanced-mode SQL CREATE TABLE
(sub-phase 4a), executed structurally through do_create_table:
- Command::SqlCreateTable + build_sql_create_table (ddl.rs): aliases via
from_sql_name (incl. double precision), column- and table-level
PRIMARY KEY, redundant-flag de-dup off a sole PK, IF NOT EXISTS.
Advanced REGISTRY entry on the shared `create` word (SQL-first, DSL
fallback); no-PK tables allowed (user-confirmed).
- Worker (db.rs): Request::SqlCreateTable + CreateOutcome + snapshot_then
(one undo step); IF NOT EXISTS no-op (no snapshot, but journalled, like
read-only commands). do_create_table inline-PK rule aligned with the
rebuild generator schema_to_ddl — no round-trip DDL drift; serial
autoincrement is independent of inline-PK (verified by round-trip
tests).
- Runtime/App: dispatch + CommandOutcome::SchemaSkipped +
AppEvent::DslCreateSkipped (structure + "already exists — skipped"
note). Friendly catalog keys added (engine-neutral).
DEFAULT/CHECK/table-level UNIQUE are absent from the 4a grammar (parse
error with usage skeleton; friendly message + support land in the 4a.2
constraint slice) — user-confirmed.
Tests: type resolver, grammar shape, builder (incl. the PK
detection bug they caught), and tests/sql_create_table.rs (worker
round-trip, serial autoincrement first/non-first across rebuild, IF NOT
EXISTS no-op + journalling, no-PK table, one undo step) + a replay-as-
write test. 1739 pass / 0 fail / 1 ignored; clippy clean.
Exit gate: ADR-0035 Proposed -> Accepted (validated end-to-end by 4a);
README + requirements.md Q1 updated.
Three design questions settled during 4a implementation (plan + ADR §13
+ README in lockstep):
- CHECK/DEFAULT defer to the 4a.2 constraint slice: sql_expr is
validate-only (no Expr AST), so they need raw-SQL-text storage on a
separate path, not do_create_table's Expr->compile reuse. 4a.2 now
also covers composite UNIQUE / multi-column table CHECK.
- double precision (the lone two-word alias) handled via a keyword-pair
branch; single-word aliases + discarded (len) cover the rest.
- serial sole-PK in a multi-column table must inline PRIMARY KEY to keep
autoincrement (worker-step do_create_table extension).
4a core narrows to columns + types + NOT NULL/UNIQUE/PRIMARY KEY +
IF NOT EXISTS; everything else errors "not yet supported".
Add the sub-phase 4a implementation plan (docs/plans/), test-first,
mirroring the ADR-0033 DML sub-phase model: SqlCreateTable as its own
command executed structurally through the existing do_create_table
helper; shared-entry-word dispatch (SQL-first, simple fallback); the
type-alias resolver; IF NOT EXISTS no-op-with-note (CreateOutcome
enum); INTEGER PRIMARY KEY -> plain int; one-undo-step wiring.
Records the user-confirmed 4a/4a.2 split: composite UNIQUE(a,b) and
multi-column table CHECK move to a dedicated slice because they are the
first structures TableSchema cannot already represent, so they need a
persistence-model + round-trip extension rather than parse+execute
reuse. ADR-0035 §13 gains 4a.2; README sub-phase line updated in
lockstep.
Pre-implementation /runda round settled two open micro-calls before 4a,
both user-confirmed:
- IF [NOT] EXISTS admitted (no-op-that-succeeds-with-a-note), not
refused — a near-universal cross-vendor idiom (PostgreSQL, MySQL,
SQLite, Oracle 23ai), reclassified into scope rather than treated as
an engine-specific spelling. Touches §3/§4/§12/§13 (4a, 4c).
- INTEGER PRIMARY KEY maps to a plain int PK, not auto-increment;
serial stays the sole auto-increment type (§3).
README index updated in the same edit per the lockstep rule.
Phase 4 of the ADR-0030 roadmap; clarifies §4. Advanced-mode
CREATE/DROP/ALTER TABLE + CREATE/DROP INDEX get their own
per-statement Sql* commands, executed structurally (not verbatim)
so the playground's types, named relationships, and STRICT stay
intact. Full surface (no pre-emptive cuts): constraints, compound
PK, FK -> named relationships (one statement = one undo step),
ALTER incl. advanced-only table rename (C1), [UNIQUE] indexes.
Unified column-type-conversion: lossy refuses in simple mode but
proceeds-with-a-note in advanced, with undo as the safety net.
Integration (parser/hint/completion/diagnostics/history/replay/undo)
is structural via the unified grammar; replay treats DDL as a write.
Nine sub-phases (4a-4i). Updates the ADR README index.
Status: Proposed (design agreed; implementation pending).
Settles the undo/snapshot half (U1/U2) before implementation:
- every-mutation single-step undo (supersedes destructive-only model)
- hybrid whole-project snapshot (db backup API + yaml/csv copy),
reconciling ADR-0006 with ADR-0015's derived-db model
- persisted N=50 ring; redo discarded on new work
- batch ops (replay + future) record one undo step; import excluded
- --no-undo disable switch
Adds the implementation plan and updates README index, requirements
U1/U2, and CLAUDE.md in lockstep.
Replay (§3): run_replay parses <ts>|<status>|<source> journal records — runs ok, skips non-ok — while still accepting bare .commands scripts (prefix-detected so a | inside a bare command isn't misread). Fixes replay history.log, which died on line 1.
Journal failures (§1/§2): failed commands are recorded err via a new Action::JournalFailure, emitted by the pure-sync App for both parse failures and worker-execution failures (runtime appends best-effort, never fatal). Hydration reads all records so typo'd/rejected commands are recallable across sessions.
Amendment 1 — replay filters app-lifecycle commands: a working replay history.log exposed that the journal also records save as/load/new/export/import/rebuild/mode (which would panic the worker dispatch or abort replay). Replay now re-applies only schema/data writes and skips every app-lifecycle command + nested replay, classified by entry word so modal/incomplete forms (save as, bare mode) and quit skip uniformly rather than aborting. All skips continue (reversing the nested-replay refusal); import and nested replay warn. replay.error_nested removed; replay.skipped_import/_replay added; ReplayCompleted carries warnings. requirements.md U3/U4 updated; app-command runtime-failure journalling tracked as a follow-up.
1659 passing / 0 failing / 0 skipped / 1 ignored. Clippy clean.
Phase 3 of the ADR-0030 SQL surface (DML) is implemented and verified through sub-phase 3k; mark ADR-0033 Accepted in the ADR and the README index (index-upkeep rule). Add handoff 34 tracking the close-out and teeing up ADR-0034 (history journal + replay filter) as the next job.
1645 passing / 0 failing / 0 skipped / 1 ignored. Clippy clean.
Wire `insert`/`update`/`delete` as shared DSL/SQL entry words through the
category-grouped dispatcher (ADR-0033 Amendment 1): the Advanced SQL nodes
move off the dev words (`sqlinsert`/`sql_update`/`sql_delete`) to the real
keywords, registered alongside the Simple DSL nodes. Remove the dev-word
scaffold; collapse build_sql_{insert,update,delete} to source.trim();
de-duplicate the two REGISTRY entry-word listing sites.
Dispatch model (ADR-0033 Amendment 3, written this round):
- A command is the mode-rooted grammar-path outcome; identity is intrinsic.
Advanced mode tries SQL first, falling back to the Simple DSL command when
no SQL branch matches a token (`delete … --all-rows` falls back;
`update … --all-rows` does not — the SET expression absorbs it, harmless
since the engine treats `--all-rows` as a comment).
- Simple mode commits the DSL candidate for a shared word, surfacing the real
DSL error; bare "this is SQL" is reserved for SQL-only entry words
(`select`/`with`). A content rejection on the SQL candidate (internal
table) is committed, never masked by the DSL fallback.
Combined DSL-error + advanced-SQL pointer (ADR-0033 Amendment 3): a Simple-mode
definite DSL error that would run as SQL in advanced mode gains the
`advanced_mode.also_valid_sql` suffix — in the live hint (ambient_hint_in_mode)
and on submit (dispatch_dsl), via the shared advanced_alternative_note — so the
actionable DSL fix and the mode pointer coexist (submit covers constructs that
surface only on submit, e.g. `delete … returning`).
Internal-table rejection symmetrised (/runda finding B, ADR-0030 §6): the DSL
data-command target slots (insert/update/delete/show data/show table) gained
reject_internal_table, so `__rdbms_*` tables are refused in Simple mode too —
previously only the advanced SQL grammar rejected them.
Mode-awareness: classify_input_with_schema_in_mode and
invalid_ident_at_cursor_in_mode stop leaking the advanced SQL view into
simple-mode hints for shared words.
Tests: dev-word inputs migrated to the real words (advanced); DSL grammar /
completion / phase-D / db tests parse in Simple mode (the DSL surface); replay
keeps its advanced-mode model (one stale assertion fixed); dispatcher routing,
combined-pointer, and internal-table tests added. Suite 1626 pass / 0 fail /
1 ignored; clippy --all-targets -D warnings clean.
Defer M4 (execution-time mode side-channel; tracked in requirements.md) to its
own ADR.
Found while implementing 3f: history.log is success-only, but the
in-memory Up/Down recall ring records every submission — and the ring
is re-seeded from the log on open, so failed commands are recallable
in-session yet lost across sessions. Replay and recall also want
different inputs (state-builders vs everything-typed), which one
success-only file can't serve. And replay never parsed the pipe
format (run_replay parses whole lines), so `replay history.log` fails
on line 1 with no test covering it.
Decision: history.log becomes a complete journal tagged ok/err;
hydration reads all, replay reads ok-only and learns the format.
Amends ADR-0006 + ADR-0015 §5/§12. Code deferred to two tracked
sub-tasks. No migration for existing all-ok logs.
New src/dsl/grammar/sql_delete.rs (FROM <table> [WHERE] [;]),
Command::SqlDelete, Request::RunSqlDelete, do_sql_delete worker.
do_sql_delete mirrors the DSL do_delete: detect FK cascade by
before/after child row-count diffing, re-persist target + every
cascade-affected child, history-on-success inside the tx. Reuses
CommandOutcome::Delete -> handle_dsl_delete_success, so the
per-relationship cascade summary formatter is shared, not duplicated.
ADR-0033 Amendment 2: supersedes §7's WHERE-injected pre-count. Its
premise (DSL handler builds pre-counts from the typed Expr) was wrong
— do_delete uses count-diff. The pre-count would also have broken the
§2 parity promise by reporting SET NULL the DSL path doesn't. Count-
diff gives exact parity, no WHERE-byte extraction, and withdraws R2.
SET NULL reporting deferred for both paths (user-confirmed).
Tests: +6 grammar unit, +12 integration (cascade parity with DSL,
both R2 subquery cases, before-execute order, no-WHERE, FK-rejection
rollback, childless-parent, two-child cascade). 1542 pass / 0 fail /
1 ignored. Clippy clean. Dev sql_delete entry word removed in 3j.
walk_repeated discarded the last matched item's trailing-optional
expectations at a clean item boundary, so a comma-separated list
offered no continuation after a complete item: `order by Name `
gave no asc/desc, `select Name ` no `as`, `create table …
Code(text) ` no not/unique/default/check. Capture the last item's
skipped set and surface it when the list ends at an item boundary
(the separator `,` itself is deliberately not surfaced).
That fix made expression-position candidate lists long, which
exposed a visibility problem: the hint panel's candidate line is
single-row and window-scrolls on overflow, centring on item 0 when
nothing is selected — so with keywords-first, schema identifiers
scrolled off behind the `>` marker. Reverse the ordering: schema
identifiers (table/column/relationship names) now sort before
keywords, since a name the user would have to look up is the
highest-value completion and must stay visible (keywords are
learned over time; the tok_identifier/tok_keyword colour split
marks the boundary). This reverses the handoff-14 keywords-first
call, now recorded in ADR-0022 Amendment 2.
Tests: walker expected-set + completion-layer regressions for the
trailing-optionals and the ordering; candidate_ordering.rs header
invariant inverted; ~20 typing-surface snapshots re-baselined; a
two-line hint box recorded as a deferred follow-up.
Advanced-mode hinting + completion-preview were dead: render_hint_panel
returned None for advanced mode (stale ADR-0022 §12 gate, predating the
SQL grammar) and the hint resolver/ambient_hint never threaded Mode, so a
SQL statement was gated as "this is SQL". The unified walker (ADR-0030/
0031/0032) speaks SQL, so this lifts the gate.
- ambient_hint_in_mode + hint_resolution_at_input_in_mode +
expected_for_hint_snapshot(mode); candidate/diagnostic/parse sub-calls
run in the active mode.
- render_hint_panel calls ambient for all modes; one-shot `:` sigil
stripped (strip_one_shot_prefix) so `: sel` hints `select`.
- ADR-0022 Amendment 1 + README index.
Found by manual advanced-mode testing; Phase 2 marked SQL hint/completion
green at the engine layer but never exercised the UI. App-level render
test (advanced_mode_hint_panel_surfaces_sql_candidates) + ambient-layer
regression locks. 1466 baseline green.
Replaces ADR-0033 §2's original Node::Guard + Choice(SQL,DSL) mechanism,
which was found during 3a to be unworkable: any guard-in-Choice approach
forces a walk_choice change (walk_choice falls through only on NoMatch, so
simple-mode valid-DSL would wrongly surface "this is SQL"), and walk_seq
treats a NoMatch past idx 0 as a hard Failed, breaking advanced-mode DSL
fall-through.
Mechanism (Amendment 1): each REGISTRY entry is tagged
CommandCategory::{Simple, Advanced}, generalising the whole-command
is_advanced_only gate. walk() becomes a thin dispatcher over decide()
(mode-aware candidate selection: simple commits the DSL node or emits the
"this is SQL" hint; advanced tries SQL first, DSL as a full-line fallback)
and an extracted walk_one_command(); speculative match-testing runs on a
scratch WalkContext so the caller's context is only touched by the
committed walk. No Node::Guard, no walk_choice/walk_seq change.
6 dispatch smoke tests on a shared-entry-word smoke registry; 1446 baseline
green; clippy clean.
Phase 3 of ADR-0030's SQL-surface roadmap. Status: Proposed.
Statement shapes (§1): single- and multi-row INSERT, INSERT…SELECT
(recursing through ADR-0032's SQL_SELECT_COMPOUND), UPDATE with
SET assignment list, DELETE, all three optionally followed by
RETURNING projection_list. Full UPSERT (ON CONFLICT … DO NOTHING /
DO UPDATE with the SQLite/PostgreSQL `excluded` pseudo-table)
on INSERT.
Dispatch (§2): SQL-first / DSL-fallback in Advanced mode via
Choice(SQL_shape, DSL_shape) per shared entry word. Requires a
new walker capability — Node::Guard(fn), a zero-byte-consumption
gating node — landed as the first sub-phase's work (R1 mitigation
budgeted).
Execution (§10): three typed Command variants (SqlInsert /
SqlUpdate / SqlDelete) carrying target_table, listed_columns,
and a returning: bool flag. Worker handlers know per-kind
specialisations: shortid auto-fill (§6, parity with DSL),
cascade summary (§7, WHERE byte-range injection into pre-count
subqueries), DataResult routing on RETURNING (§5).
Diagnostics (§8): three new keys (insert_arity_mismatch ERROR,
auto_column_overridden WARNING, not_null_missing WARNING) with
positive + negative test requirements.
OOS list (§13): DEFAULT VALUES (seed feature), SQLite OR-prefixes,
UPDATE FROM, WITH-prefixed DML, indexed-by hints,
multi-statement batches.
Implementation notes: eleven phased sub-phases (3a–3k) each with
explicit exit gates + written DA gates. Ordering puts Node::Guard
scaffolding (3a) FIRST so the dispatch mechanism is proven before
DML grammar lands on top.
Initial DA review (Initial DA review section) recorded seven
critiques that were resolved before status moved to Proposed; a
second-pass DA surfaced an eighth (Node::Guard wasn't an
existing walker capability) and added it to §2 + sub-phase 3a's
scope.
Amendment 2 records the §10.6 fixup-pass mechanism choice. §10.6
prescribes "rewriting the highlight class" on projection-list
idents at end-of-walk; the actual implementation uses a different
mechanism that achieves the identical user-visible behavior:
1. 2d's two-pass schema-existence diagnostic collects every FROM
binding from the matched path first, then resolves projection
idents against the complete scope. The post-walk re-resolve
§10.6 calls for, just embedded in the diagnostic emitter.
2. input_render.rs's diagnostic-overlay path colors each
diagnostic span Error/Warning, achieving the visual change
§10.6 describes without needing a new HighlightClass variant.
The completion-mid-typing piece is improved by the §10.5
look-ahead probe (sub-phase 2e earlier).
Four new regression tests in `projection_before_from_tests` pin
the behavior so a future refactor can't silently regress it:
correct ident resolves silently, unknown ident flags via
diagnostic on its span, multi-projection only flags unknowns,
projection-without-FROM is silent.
ADR index entry updated to reference Amendment 2.
Test totals: 1424 → 1428 passing (+4). Clippy clean.
§12 was written conservatively, classifying projection items
structurally and listing "subquery expressions" alongside
arithmetic / CASE as cases that stay None. The Phase-2 plan's
Open Question 1 captured the matching uncertainty about CTEs
and scalar subqueries.
A throwaway probe against the pinned bundled SQLite +
rusqlite 0.39.0 (with the `column_metadata` feature) settles
the question across 20 representative query shapes. The
engine's column_table_name / column_origin_name metadata
follows through non-recursive CTEs (SELECT *, bare-ref,
qualified-ref, and (col-list)-renamed bodies; CTE chains),
scalar subqueries (aliased and unaliased), derived tables
(out of scope per §13 OOS-1 but useful to note), all four
set ops, multi-table JOIN projections, and IN-subquery
WHERE clauses (the inner subquery does not affect the
outer projection's origin).
The structural-None classes reduce to computed projections
(function calls, arithmetic, CASE, literals, wildcards —
expected and pedagogically obvious) and recursive CTE result
columns (the one structural surprise — the recursive
temporary table has no base-column origin to point at).
Amendment 1 supersedes §12's "Resolution rule" with a simpler
engine-driven rule: trust column_table_name(i) /
column_origin_name(i) verbatim, with no grammar-side
structural classification. The speculative MatchedPath-walk
fallback is moot. The Phase-2 plan's sub-phase 2f exit gate
gains explicit positive assertions for CTE pass-through and
scalar-subquery type recovery, and a new explicit negative
assertion for the recursive-CTE limitation.
README.md index entry extended in the same style as ADR-0027's
Amendment-1 line. Closes Plan §Open-1.
ADR-0030 §3 commissioned a focused ADR for the full SELECT
grammar (the "SELECT — full" phase). ADR-0032 records the
decisions; docs/plans/20260520-adr-0032-phase-2.md is the
implementation plan walking the work.
Phase 2's grammar surface:
- Five JOIN flavours (INNER, LEFT, RIGHT, FULL OUTER, CROSS).
NATURAL/USING/comma-FROM explicitly OOS.
- All four set ops (UNION, UNION ALL, INTERSECT, EXCEPT).
- WITH and WITH RECURSIVE CTEs, with optional (col-list) renaming.
- Scalar subqueries, IN (SELECT …), [NOT] EXISTS as additive
primary branches in sql_expr (redeems ADR-0031 §7 OOS-1).
- Qualified column refs t.c / alias.c as a name_or_call tail
(redeems ADR-0031 §7 OOS-2).
- LIMIT n [OFFSET m]; legacy `LIMIT m, n` OOS.
- DISTINCT/ALL, t.* projection, bare-alias projection (lifts
Phase-1 §4.2's autonomous decision).
Walker-capability honesty (§10): ADR-0030 §8's "ambient
assistance comes for free" holds for grammar recursion (reuses
ADR-0026's Subgrammar + depth cap unchanged) but not for
completion scope. Phase 2 adds a new Node::ScopedSubgrammar
variant alongside the existing Node::Subgrammar (DSL Expr and
sql_expr recursion untouched), a from_scope_stack of
ScopeFrames holding from_scope / cte_bindings /
projection_aliases, qualified-prefix completion narrowing, and
a post-walk fixup pass that re-resolves projection-list
identifier highlighting/validity once FROM is parsed (the
projection-before-FROM problem).
CTE column resolution (§10.3): SELECT * and explicit-projection
CTE bodies both yield real column completion past cte_alias.|
via a body-projection derivation rule that runs at the body's
ScopedSubgrammar exit and writes derived columns back into the
binding.
Diagnostics (§11): every Phase-2 validation case classified
against ADR-0027's ERROR/WARNING guideline. Five new diagnostic.*
catalog keys for parse-time-detectable cases (unknown_qualifier,
ambiguous_column, projection_alias_misplaced, cte_arity_mismatch,
compound_arity_mismatch) plus eight engine.* translation keys.
A MatchedPath-walking predicate-warnings variant closes the
Phase-1 carry-over gap where SQL WHERE expressions emitted no
LIKE-on-numeric / = NULL / type-mismatch warnings — ADR-0027
Amendment 1 finally extends to the SQL surface.
Result-column type resolution (§12): rusqlite 0.39.0 exposes
column_table_name / column_origin_name / column_database_name
behind a `column_metadata` feature; verified. Bare column refs
recover their playground type — partially lifts Phase-1 §4.5's
bool→0/1 deferral.
The implementation plan breaks Phase 2 into seven sub-phases
(2a–2g) with explicit exit gates per sub-phase and a cross-cut
verification matrix that names every "X comes for free" claim
from ADR-0030/0031/0032. The Phase-1 SQL-expression
predicate-warning gap is a named row, preventing an analogous
silent gap from shipping. The plan encodes the user's standing
authorization for the implementer to walk uninterrupted between
gates and commit with standard messages — escalation
discipline preserved for design ambiguities and real blockers.
Pushes remain user-only.
New docs/plans/ directory sets a pattern for future phase plans.
Status: Accepted.
ADR-0030 §3 commissioned a focused ADR for the stratified SQL
expression grammar fragment. ADR-0031 records the decisions:
- One unified precedence ladder (OR/AND/NOT, comparison/LIKE/IN/
BETWEEN/IS NULL predicates, arithmetic incl. `||`, function
calls, CASE) — SQL treats booleans as values, so unlike
ADR-0026's bool/scalar split this is a single ladder.
- No AST — every Phase-1 consumer (SELECT projection, WHERE)
runs validated SQL as text per ADR-0030 §4/§6; CHECK/DEFAULT
in Phase 4 store text too. The fragment's job is accept /
reject + the matched-terminal path + a source span.
- Recursion via Subgrammar with ADR-0026's depth cap reused.
- A parallel `grammar/sql_expr.rs` — separate from `expr.rs` so
simple mode's 1240-test surface is untouched by construction.
- Subquery expressions and qualified `t.c` column refs deferred
to ADR-0030 Phase 2 (they need the recursive SELECT grammar).
`%` modulo is included alongside `+ - * /` and `||` — it isn't
ISO SQL but is near-universal across mainstream engines and
matches learner expectations (pedagogy wins ties, ADR-0030).
Status: Accepted. The implementation lands in subsequent
commits.
Decides the architecture for SQL in advanced mode (Q1/Q2/Q4):
SQL is authored as grammar within the unified grammar tree
(ADR-0024) and parsed by the existing walker — not a separate
batch parser — so SQL gets the same completion, highlighting,
hints, and parse-error reporting as the DSL. Mode gates the
SQL forms. DDL routes through the typed Command executor
(metadata and the playground type vocabulary preserved); DML
and SELECT execute as validated SQL. Engine-neutral posture;
DSL→SQL teaching echo; phased plan.
Supersedes ADR-0001's sqlparser-rs reservation. Ticks Q4;
updates the ADR index and the Q1/Q2 notes. handoff-24 orients
the implementation session at Phase 1.
Designs the remaining C3 surface: the four column-level
constraints declared in the column-spec suffix at `create
table` / `add column`, and modified on existing columns via
`add constraint … to` / `drop constraint … from`.
- A pre-flight dry-run (the ADR-0017 ethos) scans a populated
column before applying NOT NULL / UNIQUE / CHECK and refuses
with a pretty-table of offending rows; no `--force`.
- CHECK reuses the ADR-0026 expression grammar via Subgrammar.
- `__rdbms_playground_columns` carries a new `check_expr`
column; the other three are recoverable from SQLite pragmas.
- README index updated.
LIKE is a text-pattern match; against a numeric column (int,
real, decimal, serial) it runs but is almost never intended.
predicate_warnings now emits a WARNING for it, spanned at the
target column. New Type::is_numeric; catalog key
diagnostic.like_numeric; ADR-0027 gains "Amendment 1" and the
adr/README index line is updated per the index-upkeep rule.
bool and the text-/blob-backed types are deliberately not
flagged — see the amendment for the rationale.
3 walker tests (int, decimal NOT LIKE, text-column clean).
1108 passing, clippy clean.
The QA1/QA2 design: an `explain` prefix command over
`show data` / `update` / `delete` that runs
EXPLAIN QUERY PLAN (without executing the statement) and
renders the result as an annotated tree. Plan steps keep
the engine's own wording; an annotation taxonomy marks
full scans, index use, and the automatic-index "you
should add an index here" case. Introduces a general
styled-output-line mechanism — an OutputLine may carry
per-span styling — realising the per-span theming
ADR-0016 deferred; the plan renderer is its first
consumer. The explained SQL is shown above the tree as
standard, copy-pasteable SQL.
- docs/adr/0028-query-plans.md — the ADR.
- docs/adr/README.md — index entry.
- docs/requirements.md — QA2 [~] -> [ ]; QA1 note
reconciled (designed in ADR-0028).
A debounced `[ERR]` / `[WRN]` marker at the right edge of
the input row, summarising — before submit — whether the
current command would run. Backed by a small
diagnostics-severity model: the walker emits severity-
tagged diagnostics (parse outcome, schema-existence of
table / column names) that the indicator summarises and
the existing highlighting / hint layers detail. Advisory
only — submission is never blocked.
- docs/adr/0027-input-validity-indicator.md — the ADR.
- docs/adr/README.md — index entry.
- docs/requirements.md — new S6 (TUI shell).
The C5a design: a stratified, recursive WHERE-expression
grammar (AND/OR/NOT, comparisons, LIKE, IS NULL, IN,
BETWEEN) for update / delete / show-data filters; show
data gains optional `where` and `limit`. Adds the
`Subgrammar` reference-following grammar node and a
recursive `Expr` AST, built selectively for the
expression fragment.
- docs/adr/0026-complex-where-expressions.md — the ADR.
- docs/adr/README.md — index entry.
- docs/simple-mode-limitations.md — new running list of
simple-mode query boundaries vs. advanced SQL, seeded
from ADR-0026.
- docs/requirements.md — C5a [~] -> [ ] (designed, not
yet implemented); new Documentation section with DOC1.
Implement ADR-0025 — indexes as a DSL DDL feature.
- Grammar: `add index [as <name>] on <T> (<cols>)`, `drop index
<name>` / `drop index on <T> (<cols>)`, plus a `--cascade`
flag on `drop column`.
- db.rs: index operations over the engine's native index
catalog (no metadata table). The rebuild-table primitive now
captures and recreates indexes, so `change column` and the
relationship operations no longer silently drop them.
- `drop column` refuses an indexed column unless `--cascade`,
which drops the covering indexes and reports each.
- Persistence: additive `indexes:` list in `project.yaml`
(version unchanged); round-trips through rebuild/export/import.
- Display: an `Indexes:` section in the structure view and a
nested tables/indexes items panel (S2).
Reconciles requirements.md (C3 index portion, S2 satisfied)
and CLAUDE.md. 1038 tests passing (+31), clippy clean.
ADR-0024 audited as fully implemented. Amend the ADR with a "Phase F
minimal" implementation note (parser.rs retained as the router +
ParseError home) and update the README index line to match.
Reconcile docs/requirements.md against handoffs 10-14: refresh the
test baseline (449 -> 1006), mark U4 (replay) satisfied, correct the
A1 / H1a / H3 progress notes.
Amend handoff-14: §3 flagged items both resolved (ranker kept,
CommandNode.hint_mode removed); §4 rewritten as a concrete next-work
pointer at the reconciled requirements.md.
Concrete specification for the direction in ADR-0023, landed
during the round-6 design pass. Resolves all four rounds of
open design questions: walker as single source of truth,
scannerless terminal vocabulary (~8 building blocks), typed
value slots with content validators, WalkContext for schema-
aware narrowing from day one, WalkOutcome multi-purpose
return, HintMode per-node, ranker as separate layer, static
+ dynamic sub-grammars, aliases as Word annotations,
IdentSource taxonomy, six-phase per-command migration with
chumsky and walker side-by-side during the transition.
Key shifts from ADR-0023's sketch:
- Lexer dissolves entirely. Walker operates on bytes directly.
dsl/lexer.rs, dsl/keyword.rs go away in Phase F.
- Schema-aware parse from day one (not phased). Typed value
slots reject mis-shaped input at parse time with localised
wording. Completion narrows per column type.
- Sub-grammars: static (fn() -> Node) for composition;
dynamic (fn(&WalkContext) -> Node) for schema-dependent
expansion. No global named registry.
- Path-bearing commands: BarePath becomes a routine
non-whitespace terminal. Paths with spaces require quoting
via StringLit (UX simplification, aligns with standard CLI
convention).
- 13-node taxonomy: Word, Punct, Ident, NumberLit, StringLit,
BlobLit, Flag, BarePath, Choice, Seq, Optional, Repeated,
DynamicSubgrammar.
Migration plan: Phase A (walker scaffolding + app-lifecycle
commands), Phase B (DDL without value literals), Phase C
(create table), Phase D (data commands with full schema
awareness -- the design's central claim landing), Phase E
(replay), Phase F (delete chumsky + lexer + legacy parser
modules, simplify catalog). Estimated ~4 sessions total.
Also: rename ADR-0023 from 0023-proposed-unified-grammar-tree.md
to 0023-unified-grammar-tree.md (git mv preserves history)
and update its status to reflect the direction-accepted-but-
superseded-for-execution-detail relationship with ADR-0024.
Index updated.
Captures the architectural critique surfaced during round-5
manual testing — that adding a keyword or command currently
requires edits in 7-10 files across parser, completion, usage
registry, catalog, and tests — and the proposed direction: a
single declarative trie registry that drives parse, completion,
highlight, and usage rendering from one source.
Status: Proposed. Not yet accepted. Filename carries the
`-proposed-` segment so status is visible at directory-listing
time; rename to `0023-unified-grammar-tree.md` on acceptance.
Estimated cost: ~4 sessions, per-command migration. Why not
now: feature backlog and bearable scatter cost. Right moment
to execute when backlog quiets or scatter cost becomes
visibly painful.
Replaces the originally-planned separate ADRs for syntax
highlighting (I4) and tab completion (I3) with a single
unified design. The framing: colour, hint panel, and Tab
are three answers to the same question — what does the user
need to know mid-typing? — and planning them separately
produces three loose pieces that drift apart.
Three mid-typing states (valid-so-far / definite-error /
incomplete-but-plausible) drive four layered channels:
token-class colour and parse-error overlay (silent, always
on), hint panel ambient and Tab-triggered completion mode
(verbose, in the existing hint panel — no floating popups).
Schema-aware from day one via an IdentSlot taxonomy in the
parser (NewName / TableName / ColumnIn(TableRef::Earlier(N))
/ RelationshipName); every existing ident() call gets
audited and tagged. Completion candidates come from chumsky's
expected-token-set for keyword slots and from a new worker
request (ListNamesFor) for identifier slots.
Implementation lands in 8 green-after-each commits: theme
colours; input panel highlighting; echo line highlighting;
render-time parse + error overlay; hint panel ambient;
identifier-slot taxonomy + parser audit; schema query
plumbing; completion mode + key bindings. Estimated
1500-2500 lines across the eight stages.
Out of scope (deliberately): inline ghost text (could return
as a "most-likely" affordance later — fish-shell style),
fuzzy matching, punctuation completion, user-customisable
keybindings, SQL highlighting in advanced mode (waits on Q4).
ADR-0020 amends ADR-0001 with a two-phase parse: a lexer
producing a span-tagged token stream, then chumsky over
&[Token]. Single source of truth for keywords and punct via
a define_keywords!/define_punct! macro pattern. Parser
contract committed for I3 (queryable expected-token-set)
and I4 (lexer always succeeds, Error tokens for invalid
input). Includes an honest history note: the no-lexer shape
in dsl/parser.rs arose incrementally without ADR-level
deliberation against the known H1a/I3/I4 requirements; this
ADR corrects that.
ADR-0021 builds on ADR-0020 to close the H1a gap: a
per-command UsageEntry registry keyed off entry-keyword,
with parse errors rendered as caret + structural error +
matching usage template(s). Multi-entry families (add,
drop, show) render together. New catalog sections under
parse.usage.* (per-command grammar) and parse.token.*
(single-token vocabulary). Zero-prefix case ("frobulate
Customers") falls back to an "available commands:" framing.
Anchor-phrase compliance preserved.
Settles the design we discussed across this session's
follow-up to the engine-vocabulary audit:
- A central `friendly` module owns translation; the existing
ad-hoc helpers (`friendly_change_column_engine_error`,
`enrich_fk_message`) absorb into it.
- Initial catalog covers UNIQUE / FK / NOT NULL / CHECK /
type-mismatch errors with operation-tailored,
pedagogically-voiced wording in verbose and short variants.
- New `messages (short|verbose)` app-level command lets
advanced learners shrink the output. In-session state for
now; persisted later when settings persistence lands.
- Row pinpointing via post-failure re-query, rendered through
ADR-0017 §7's bordered diagnostic-table renderer.
`FriendlyError` is a structured payload (headline + hint +
optional table); `output_render` composes it.
- i18n foundation: hierarchical YAML catalog, embedded via
`include_str!`, fixed locale (en-US) for now, no external
files. `{name}` plain substitution; format specifiers
explicitly rejected so a translator cannot reformat values.
Value formats stay invariant across all locales (ISO 8601
dates, `.` decimals, `true`/`false`, `NULL`) — explicitly
not a translatable concern.
- Migration sweep is required follow-on but separable: a
`t!()` macro marks call sites and lets per-category PRs
land incrementally. Anchor-phrase list (§10) limits test
churn for the most common substring assertions.
Out of scope and explicitly deferred: advanced-mode SQL
error sanitisation (waits on Q1), settings persistence for
the messages command, plural-form rules per locale, runtime
locale selection, locale-aware value formatting (rejected,
not deferred), constraint-management surface (C3 territory).
README index updated.
Generalises serial and shortid beyond their previous restricted
forms:
- `serial` is no longer restricted to single-column PK. Non-PK
serial columns get an emitted UNIQUE constraint and use
application-side MAX(col)+1 at INSERT time (rowid alias still
drives the PK case for free; per ADR-0010 worker-thread
serialisation, the read-then-insert sequence is safe).
- `shortid` columns auto-fill existing null cells when the
column is materialised — `add column T: x (shortid)` on a
non-empty table no longer leaves rows in a not-really-valid
NULL state.
- `int -> serial` joins the type-change matrix as always-clean
identity (closes the asymmetry vs `text -> shortid`); other
sources are refused with a route-via-int hint.
- `change column T: x (serial|shortid)` fills null source
cells with sequence / generated values in the same rebuild
transaction.
Internal infrastructure:
- ReadColumn gains `unique: bool`; read_schema detects single-
column UNIQUE indexes via pragma_index_list /
pragma_index_info; schema_to_ddl emits inline UNIQUE for
non-PK columns.
- ColumnSchema (persistence) gains `unique: bool` so the flag
survives YAML round-trip and rebuild-from-text reconstructs
it faithfully — preserves the "serial -> int leaves UNIQUE
in place" promise across save/load cycles.
- ChangeColumnTypeResult.client_side now carries `auto_filled`
+ `auto_fill_kind` alongside `transformed` + `lossy`; the
app handler renders separate note lines when both apply.
- AddColumnResult is a new return type carrying pre-rendered
[client-side] note lines for the auto-fill paths.
Tests: 519 -> 534 (+15). Clippy clean.
Specifies the curated per-cell classification (clean /
lossy / incompatible) for column type changes, the static
transformer matrix (numeric chains, text↔structured types,
always-clean stringifications), and the PK / shortid /
uniqueness-bearing handling. Replaces the B2/C2
placeholder of "rely on engine STRICT and surface its
errors" with a learner-friendly model that:
* refuses incompatibles up-front,
* refuses lossy conversions by default with a re-run-with-
--force-conversion hint,
* refines the PK refusal: an inbound-FK PK is only refused
when the new type would change the FK target type
(so `serial → int` and `shortid → text` on FK-referenced
PKs are allowed; `int → text` etc. still refuse),
* adds a post-transformation uniqueness check for PK and
shortid columns,
* uses the pretty-table renderer (ADR-0016) for all
diagnostic row lists,
* emits a `[client-side] …` note in the success summary
whenever the transformer rewrote any cell.
`--force-conversion` accepts loss; `--dont-convert` skips
the client-side layer entirely; mutually exclusive.
Forward-look: a future iteration may add resolution flags
(`--default 0`, `--on-incompatible '<value>'`).
Also amends ADR-0002 with a new "User-facing posture"
section cementing that the database engine choice is an
implementation detail and is never named in user-visible
strings. Adds a corresponding bullet to CLAUDE.md's
working-style rules so every session picks it up.
Implementation lands as a follow-up.
Replaces the placeholder pipe-and-dash output with Unicode
box-drawing tables for both data results and table-structure
listings, per ADR-0016.
* New `src/output_render.rs` module with `render_data_table`
and `render_structure`. Hand-rolled to match the project's
existing CSV/YAML pattern; ~300 lines.
* Header-only outer-frame border style: outer ┌─┐│└─┘ box +
├─┤ header underline, no per-row separators. NULL renders
as `(null)`; cell newlines/tabs/control chars become
`↵`/`→`/`·` as display-only substitutions.
* Type-aware column alignment: numeric types right-aligned,
everything else left. `DataResult` gains a `column_types:
Vec<Option<Type>>` field, populated from the existing
metadata lookup at the two query sites in db.rs (no new
query paths).
* Structure view shows Name | Type | Constraints columns;
References / Referenced-by sections retain plain-text
format, leaving room for the future relationship-rendering
ADR.
* 18 new unit tests in output_render.rs (plus 4 insta
snapshots for the canonical layouts). Existing assertions
in app.rs and walking_skeleton.rs updated to match the new
format.
Total: 426 passing, 0 failing, 0 skipped (up from 408).
Clippy clean.
Designs track-2 lifecycle and persistence end-to-end: per-command
write-through to db+yaml+csv+history.log gated by the combined db
persistence logic with commit-db-last ordering; existence-only load
with explicit rebuild command; --resume CLI flag backed by
<data-root>/last_project; in-TUI list-with-browse picker; lock file
for single-instance enforcement; fatal-banner-then-quit failure
model (with --resume making restart cheap); fatal CSV row-load
errors with full diagnosis; YYYYMMDD-word-word-word temp naming
with display-name prettifier; collision-checked names for both
temp and user-supplied projects. Project name lives only on the
filesystem (not duplicated in YAML). ADR-0004 and ADR-0007 amended
in place. requirements.md and CLAUDE.md updated; OOS-6 (global
rolling history) tracked as deferred.
DSL data operations (ADR-0014):
- insert into T [(cols)] values (vals); short form
insert into T (vals) omits values keyword for friendlier
syntax.
- update T set ... where col=val | --all-rows; delete from T
where col=val | --all-rows; show data T.
- Value AST (Number/Text/Bool/Null) with per-column-type
validation in the executor: int/real/decimal/bool/date/
datetime/shortid each accept a documented literal shape
and produce friendly format errors naming the column.
- INSERT short form fills non-auto-generated columns in
schema order; auto-fills serial via SQLite and shortid
via the new generator (T2).
- `add column [to table] T: c (type)` -- `to table` now
optional.
Database:
- insert/update/delete via prepared statements with bound
rusqlite::types::Value parameters.
- InsertResult/UpdateResult/DeleteResult: writes return
rows_affected plus the affected row(s) only (not the whole
table), so users see exactly what changed.
- INSERT shows the just-inserted row via last_insert_rowid.
- UPDATE captures matching rowids up-front and fetches them
post-update -- works even if the UPDATE changed the WHERE
column.
- DELETE reports per-relationship cascade effects by row-
count diffing inbound child tables; UPDATE-side cascades
are not yet detected (would need value diffing).
- query_data formats cells (booleans true/false, NULLs as
None).
FK error enrichment:
- Now lists both outbound (INSERT/UPDATE relevance) and
inbound (DELETE/UPDATE on parent relevance) FKs from the
metadata, so RESTRICT errors point at the children
blocking the delete.
- RelationshipSelector has a proper Display impl -- "no
such relationship" reads cleanly.
Relationship display:
- target_table for AddRelationship/DropRelationship now
returns the parent (1-side); structure rendering after
add/drop shows that side's "Referenced by:" entry,
matching the `from <Parent>` direction of the command.
- [ok] summary uses display_subject so relationship
commands show both endpoints (`from P.col to C.col`)
rather than a single misleading table name.
- Auto-name format `<Parent>_<pcol>_to_<Child>_<ccol>`
(matches the from..to direction).
Output rendering and scrolling:
- Wrap-aware scroll: renderer reports both visible-row
count and total wrapped-row count to App; scroll math
caps against actual displayable rows. Long lines wrap;
the bottom line is always reachable; PageUp/PageDown work
correctly even after paging past the buffer top.
- Multi-line messages (FK error enrichment, cascade summary)
split into single-line OutputLines at creation time so
wrap/scroll math agree.
Runtime / events:
- New AppEvent variants for Insert/Update/Delete success
carrying typed result structs; DslDataSucceeded reserved
for show-data queries.
Docs:
- ADR-0014 covers data-op grammar, value model, --all-rows
safety, auto-show.
- requirements.md: C5 done, T2 done, V2 partial (basic data
view), V5 partial (show data added). New entries: C5a
complex WHERE expressions; H1 progress note for FK
enrichment; H1a (strong syntax-help in parse errors).
Tests: 200 passing (183 lib + 17 integration), 0 skipped.
Includes parser, type-validation, DB write/read, FK-failure
enrichment, cascade-delete propagation, focused-auto-show
behaviour, scroll-cap invariants. Clippy clean with nursery
enabled.
DSL:
- add 1:n relationship [as <name>] from <P>.<col> to <C>.<col>
[on delete <action>] [on update <action>] [--create-fk]
- drop relationship <name> | from <P>.<col> to <C>.<col>
- show table <name> for re-displaying a structure on demand
Database (ADR-0013):
- Rebuild-table primitive following SQLite's
ALTER-via-rebuild recipe (foreign_keys=OFF outside tx,
copy-by-name, foreign_key_check before commit). Reusable for
B2 (column drops/renames/type changes).
- ReferentialAction enum (no action / restrict / set null /
cascade); SET DEFAULT awaits column DEFAULTs.
- __rdbms_playground_relationships metadata table -- names,
auto-generated as <Parent>_<pcol>_to_<Child>_<ccol>.
- Type::fk_target_type() validation at declaration; friendly
errors for type mismatch, non-PK target, missing column,
duplicate name.
- describe_table populates symmetric outbound + inbound
relationship lists. drop_table refuses while inbound
references exist; outbound metadata cleaned up alongside drop.
App / UI:
- In-line cursor editing in the input field: Left, Right,
Home, End, Delete, Backspace honoring UTF-8 boundaries.
- PageUp / PageDown scrolls the output buffer; viewport row
count fed back from the renderer via App::note_output_viewport
so scroll is capped against the actual visible area
(regression-tested) and snaps to the bottom on new output.
- Failure messages quote the command portion ("verb target"
failed: ...) for visual clarity; RelationshipSelector has a
proper Display impl so "no such relationship" reads cleanly.
- Structure rendering shows References / Referenced by sections.
Docs:
- ADR-0013 covers naming, metadata table, symmetric view, and
the rebuild-table strategy.
- requirements.md updates: C3 (FK done), B2 (primitive in),
T3 (compound-PK FK still pending). New entries: I1a (cursor
editing -- landed), I1b (Ctrl-A/E and readline shortcuts --
pending), V4 partial scroll, V5 (show family), C3a (modify
relationship -- deferred).
Tests: 154 passing (140 lib + 14 integration), 0 skipped.
Clippy clean with nursery enabled.
Captures up-front design decisions for RDBMS Playground:
stack (Rust + Ratatui + SQLite), input modes, project file
format, type vocabulary, undo snapshots and replay log,
sharing/export, and testing approach. ADR-0000 establishes
the ADR practice itself and mandates index upkeep alongside
any ADR change.
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