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Author	SHA1	Message	Date
CharlesKWON	dd270d5d9d	perf: RTL Go-native migration — 27 optimizations, DML up to 70-90x Systematic pass through PRG hot paths, promoting them to Go RTL while preserving Harbour/FiveSql2 semantics. Full log in docs/RTL-Go-Native-Migration.md. Bench (bench_sql) vs 2026-04-08 baseline - B1 SELECT * 2,192 → 114 µs (19x) - B6 INNER JOIN 9,291 → 233 µs (40x) - B7 CTE simple 8,037 → 129 µs (62x) - B9 ROW_NUMBER 3,705 → 265 µs (14x) - B10 RANK PARTITION 4,748 → 309 µs (15x) - B12 INSERT (WA cache) 4,319 → 63 µs (69x) - B13 UPDATE (WA cache) 6,144 → 68 µs (90x) - B15 CTE+WIN+JOIN 18,395 → 1,873 µs (10x) Infrastructure - HbHash O(1) Index preserving insertion order (Harbour KEEPORDER) - HbDeepClone Go RTL (scalar-sharing, immutable hash keys) - MEMRDD auto-imported via gengo; all Five programs get mem:name driver - SQL plan + pcode caches (s_hPlanCache, s_hDmlPcodeCache) - Opt-in SqlWACacheEnable — dbUseArea/Close/Commit batched for DML SQL engine - FiveSql2 lexer ported to Go (byte FSM) with combined automatic template parameterization (literals → ?, concat queries share plan) - Go RTL: SqlDistinct, SqlGroupRows, SqlWindowPartitions, SqlWindowSortPartition, SqlWindowAssignRank, SqlComputeAggSimple, SqlBulkInsert, SqlBulkUpdate, SqlExprHasAgg, SqlEvalHaving - CTE / subquery / driving-table materialize paths use MEMRDD - SqlCoerce/SqlCmp/SqlIsTrue helpers moved from PRG to Go - SqlBulkUpdate defers Flush when WA cache active (APFS fsync was dominant B13 cost — 1.6ms/call → gone) Correctness fixes uncovered during migration - ASort default path now sorts dates/logicals/timestamps (was no-op) - ORDER BY default NULL placement matches PRG SqlRowCompare across Go fast path; explicit NULLS FIRST/LAST honored by both paths - SqlBulkUpdate respects EXCLUSIVE vs SHARED mode record locks - SqlCmp/SqlCmpEq normalize NumInt vs Double (caught by test 6b) Verification - go test ./... ALL PASS - FiveSql2 test_sql1999 43/43 - tests/compat_harbour 56/56 (+5 new: ASort dates/logicals, AScan int cross-type) - Regression test test_null_order.prg for ORDER BY NULL ordering Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>	2026-04-17 20:20:14 +09:00
CharlesKWON	e75167c2e9	feat(FiveSql2): five_SQL block-callback integration — SQL beats raw PRG Wires the new SqlEach RTL into FiveSql2's front-end so users write the SQL they know and opt into streaming with a familiar Harbour code block — no manual RTL plumbing. API: /* Existing array form — unchanged, 43-test still green / aR := five_SQL( "SELECT name FROM t" ) / New block form — zero intermediate rows, 2x raw PRG / five_SQL( "SELECT id, name FROM t WHERE salary > 50000", NIL, {\|nID, cName\| Process(nID, cName)} ) Parameter order (cSQL, aParams, bBlock) keeps backward compatibility with every existing call site. Passing NIL for aParams when only a block is needed is standard Harbour idiom. Routing: TFiveSQL:Execute now takes an optional bBlock parameter and stores it on TSqlExecutor as ::bRowBlock. * TSqlExecutor:RunSelect's existing Go fast path (same guards as before: single table, no JOIN/GROUP/aggregate, plain column projections, WHERE compilable via SqlExprToPrg) branches on ::bRowBlock: - block present → SqlEach streams rows through the block - block absent → SqlScan materializes into aRows (current path) * Post-processing (GROUP BY / ORDER BY / window / DISTINCT / LIMIT) runs on empty aRows when block mode fires — all are no-ops on empty input, so the sequence stays harmless. * RunSelect returns NIL (not {fields, rows}) when ::bRowBlock was used — signals "streaming semantics, all work done in the block". Complex queries (JOIN, GROUP BY, subquery, window, ORDER BY not matchable by an index, LIMIT/OFFSET, etc.) still fall back to the array path even when a block is supplied — those genuinely require materialization. Block mode is a fast-path opt-in, not a semantic change. End-to-end bench (50k rows, steady state — includes the user-side loop/block for every row): Path Time Speedup vs raw ────────────────────────────────────────────────────────────── Raw PRG DO WHILE !Eof() + WHERE sum 7.6ms 1.00x five_SQL array + FOR 7.7ms ~same five_SQL + block (new) 3.7ms 2.05x ← beats raw ────────────────────────────────────────────────────────────── Raw PRG no WHERE 6.1ms 1.00x five_SQL + block, no WHERE 2.9ms 2.10x ← beats raw SQL now pays for itself on end-to-end timing — not just competitive with hand-rolled RDD loops, but faster than them. The layered cost of FieldGet's Frame+RTL-dispatch that hand-written loops incur per call is gone; the block-callback path captures *dbf.DBFArea directly via FastFieldGetter and uses PcOpFieldGet to bypass dispatch in the compiled WHERE predicate. Validation: - FiveSql2 43/43 (array API unchanged) - Harbour compat 51/51 - go test ./... ALL PASS Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>	2026-04-14 17:00:46 +09:00
Charles KWON OhJun	486e466592	feat: FiveSql2 43/43, @byref, mutable closure, RTL 479, DateTime fix Major changes since last commit: - FiveSql2 SQL:1999 engine (10,458 LOC) — 43/43 ALL PASS - 21 compiler/runtime bugs fixed (short-circuit AND/OR, FOR LOOP, etc.) - @byref pass-by-reference via RefCell pattern - Mutable closure capture (EnsureLocalRef + RefCell sharing) - RTL: 400 → 479 functions (+79: file, string, datetime, hash, UTF-8) - DateTime/Timestamp fully working (hb_DateTime, hb_Hour/Min/Sec, display) - Reserved word guard (39 keywords blocked from function calls) - AEval arg order fix (element before index) - Closure capture redecl fix (unique _cap_ names per block) - Hash/string indexing in ArrayPush/ArrayPop - Harbour compat test suite: 51/51 - 4 docs: Porting Report, Implementation Plan, Optimization Plan, Commercialization Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>	2026-04-11 11:35:37 +09:00

Author

SHA1

Message

Date

CharlesKWON

dd270d5d9d

perf: RTL Go-native migration — 27 optimizations, DML up to 70-90x

Systematic pass through PRG hot paths, promoting them to Go RTL while
preserving Harbour/FiveSql2 semantics. Full log in
docs/RTL-Go-Native-Migration.md.

Bench (bench_sql) vs 2026-04-08 baseline
 - B1  SELECT *             2,192 → 114   µs   (19x)
 - B6  INNER JOIN           9,291 → 233   µs   (40x)
 - B7  CTE simple           8,037 → 129   µs   (62x)
 - B9  ROW_NUMBER           3,705 → 265   µs   (14x)
 - B10 RANK PARTITION       4,748 → 309   µs   (15x)
 - B12 INSERT (WA cache)    4,319 →  63   µs   (69x)
 - B13 UPDATE (WA cache)    6,144 →  68   µs   (90x)
 - B15 CTE+WIN+JOIN        18,395 → 1,873 µs   (10x)

Infrastructure
 - HbHash O(1) Index preserving insertion order (Harbour KEEPORDER)
 - HbDeepClone Go RTL (scalar-sharing, immutable hash keys)
 - MEMRDD auto-imported via gengo; all Five programs get mem:name driver
 - SQL plan + pcode caches (s_hPlanCache, s_hDmlPcodeCache)
 - Opt-in SqlWACacheEnable — dbUseArea/Close/Commit batched for DML

SQL engine
 - FiveSql2 lexer ported to Go (byte FSM) with combined automatic
   template parameterization (literals → ?, concat queries share plan)
 - Go RTL: SqlDistinct, SqlGroupRows, SqlWindowPartitions,
   SqlWindowSortPartition, SqlWindowAssignRank, SqlComputeAggSimple,
   SqlBulkInsert, SqlBulkUpdate, SqlExprHasAgg, SqlEvalHaving
 - CTE / subquery / driving-table materialize paths use MEMRDD
 - SqlCoerce/SqlCmp/SqlIsTrue helpers moved from PRG to Go
 - SqlBulkUpdate defers Flush when WA cache active (APFS fsync was
   dominant B13 cost — 1.6ms/call → gone)

Correctness fixes uncovered during migration
 - ASort default path now sorts dates/logicals/timestamps (was no-op)
 - ORDER BY default NULL placement matches PRG SqlRowCompare across
   Go fast path; explicit NULLS FIRST/LAST honored by both paths
 - SqlBulkUpdate respects EXCLUSIVE vs SHARED mode record locks
 - SqlCmp/SqlCmpEq normalize NumInt vs Double (caught by test 6b)

Verification
 - go test ./...              ALL PASS
 - FiveSql2 test_sql1999      43/43
 - tests/compat_harbour       56/56 (+5 new: ASort dates/logicals,
                              AScan int cross-type)
 - Regression test test_null_order.prg for ORDER BY NULL ordering

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

2026-04-17 20:20:14 +09:00

CharlesKWON

e75167c2e9

feat(FiveSql2): five_SQL block-callback integration — SQL beats raw PRG

Wires the new SqlEach RTL into FiveSql2's front-end so users write
the SQL they know and opt into streaming with a familiar Harbour
code block — no manual RTL plumbing.

API:

    /* Existing array form — unchanged, 43-test still green */
    aR := five_SQL( "SELECT name FROM t" )

    /* New block form — zero intermediate rows, 2x raw PRG */
    five_SQL( "SELECT id, name FROM t WHERE salary > 50000", NIL,
              {|nID, cName| Process(nID, cName)} )

Parameter order (cSQL, aParams, bBlock) keeps backward compatibility
with every existing call site. Passing NIL for aParams when only a
block is needed is standard Harbour idiom.

Routing:
  * TFiveSQL:Execute now takes an optional bBlock parameter and
    stores it on TSqlExecutor as ::bRowBlock.
  * TSqlExecutor:RunSelect's existing Go fast path (same guards as
    before: single table, no JOIN/GROUP/aggregate, plain column
    projections, WHERE compilable via SqlExprToPrg) branches on
    ::bRowBlock:
      - block present → SqlEach streams rows through the block
      - block absent  → SqlScan materializes into aRows (current path)
  * Post-processing (GROUP BY / ORDER BY / window / DISTINCT / LIMIT)
    runs on empty aRows when block mode fires — all are no-ops on
    empty input, so the sequence stays harmless.
  * RunSelect returns NIL (not {fields, rows}) when ::bRowBlock was
    used — signals "streaming semantics, all work done in the block".

Complex queries (JOIN, GROUP BY, subquery, window, ORDER BY not
matchable by an index, LIMIT/OFFSET, etc.) still fall back to the
array path even when a block is supplied — those genuinely require
materialization. Block mode is a fast-path opt-in, not a semantic
change.

End-to-end bench (50k rows, steady state — includes the user-side
loop/block for every row):

  Path                                   Time     Speedup vs raw
  ──────────────────────────────────────────────────────────────
  Raw PRG DO WHILE !Eof() + WHERE sum    7.6ms    1.00x
  five_SQL array + FOR                   7.7ms    ~same
  five_SQL + block (new)                 3.7ms    2.05x ← beats raw
  ──────────────────────────────────────────────────────────────
  Raw PRG no WHERE                       6.1ms    1.00x
  five_SQL + block, no WHERE             2.9ms    2.10x ← beats raw

SQL now pays for itself on end-to-end timing — not just competitive
with hand-rolled RDD loops, but faster than them. The layered cost
of FieldGet's Frame+RTL-dispatch that hand-written loops incur per
call is gone; the block-callback path captures *dbf.DBFArea directly
via FastFieldGetter and uses PcOpFieldGet to bypass dispatch in the
compiled WHERE predicate.

Validation:
  - FiveSql2 43/43 (array API unchanged)
  - Harbour compat 51/51
  - go test ./... ALL PASS

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>

2026-04-14 17:00:46 +09:00

Charles KWON OhJun

486e466592

feat: FiveSql2 43/43, @byref, mutable closure, RTL 479, DateTime fix

Major changes since last commit:
- FiveSql2 SQL:1999 engine (10,458 LOC) — 43/43 ALL PASS
- 21 compiler/runtime bugs fixed (short-circuit AND/OR, FOR LOOP, etc.)
- @byref pass-by-reference via RefCell pattern
- Mutable closure capture (EnsureLocalRef + RefCell sharing)
- RTL: 400 → 479 functions (+79: file, string, datetime, hash, UTF-8)
- DateTime/Timestamp fully working (hb_DateTime, hb_Hour/Min/Sec, display)
- Reserved word guard (39 keywords blocked from function calls)
- AEval arg order fix (element before index)
- Closure capture redecl fix (unique _cap_ names per block)
- Hash/string indexing in ArrayPush/ArrayPop
- Harbour compat test suite: 51/51
- 4 docs: Porting Report, Implementation Plan, Optimization Plan, Commercialization

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>

2026-04-11 11:35:37 +09:00

3 Commits