52386401b3
Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
57 lines
2.3 KiB
C++
57 lines
2.3 KiB
C++
// hakmem_tiny_slow.inc
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// Slow path allocation implementation
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// Slow path allocation function
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// Phase 6-1.7: Export for box refactor (Box 5 needs access from hakmem.c)
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#ifdef HAKMEM_TINY_PHASE6_BOX_REFACTOR
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void* __attribute__((cold, noinline)) hak_tiny_alloc_slow(size_t size, int class_idx) {
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#else
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static void* __attribute__((cold, noinline)) hak_tiny_alloc_slow(size_t size, int class_idx) {
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#endif
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(void)size; // size is already validated by caller
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if (class_idx < 0 || class_idx >= TINY_NUM_CLASSES) {
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return NULL;
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}
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// Try refilling from HotMag
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if (g_hotmag_enable && class_idx <= 3) {
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TinyHotMag* hm = &g_tls_hot_mag[class_idx];
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hotmag_try_refill(class_idx, hm);
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void* ptr = hotmag_pop(class_idx);
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if (ptr) { HAK_RET_ALLOC(class_idx, ptr); }
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}
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// Try TLS list refill
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if (g_tls_list_enable) {
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TinyTLSList* tls = &g_tls_lists[class_idx];
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if (tls->count > 0) {
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void* ptr = tls_list_pop(tls);
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if (ptr) { HAK_RET_ALLOC(class_idx, ptr); }
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// ptr が NULL の場合でも、ここで終了せず後段の Superslab 経路へフォールバックする
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}
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// Try refilling TLS list from slab
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uint32_t want = tls->refill_low > 0 ? tls->refill_low : 32;
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if (tls_refill_from_tls_slab(class_idx, tls, want) > 0) {
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void* ptr = tls_list_pop(tls);
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if (ptr) { HAK_RET_ALLOC(class_idx, ptr); }
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// ここでも NULL の場合は続行(後段へフォールバック)
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}
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}
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// Final fallback: allocate from superslab
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void* ss_ptr = hak_tiny_alloc_superslab(class_idx);
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if (ss_ptr) { HAK_RET_ALLOC(class_idx, ss_ptr); }
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tiny_alloc_dump_tls_state(class_idx, "slow_fail", &g_tls_slabs[class_idx]);
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// Optional one-shot debug when final slow path fails
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static int g_alloc_dbg = -1; if (__builtin_expect(g_alloc_dbg == -1, 0)) { const char* e=getenv("HAKMEM_TINY_ALLOC_DEBUG"); g_alloc_dbg = (e && atoi(e)!=0)?1:0; }
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if (g_alloc_dbg) {
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static _Atomic int printed[8]; int exp=0;
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if (atomic_compare_exchange_strong(&printed[class_idx], &exp, 1)) {
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fprintf(stderr, "[ALLOC-SLOW] hak_tiny_alloc_superslab returned NULL class=%d size=%zu\n", class_idx, size);
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}
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}
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return ss_ptr;
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}
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