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hakmem/core/hakmem_tiny_fastcache.inc.h
Moe Charm (CI) 52386401b3 Debug Counters Implementation - Clean History 
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>
2025-11-05 12:31:14 +09:00

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// hakmem_tiny_fastcache.inc.h
// Phase 2D-1: Hot-path inline functions - Fast cache and quick slot operations
//
// This file contains fast cache and quick slot inline functions.
// These functions are extracted from hakmem_tiny.c to improve maintainability and
// reduce the main file size by approximately 53 lines.
//
// Functions handle:
// - tiny_fast_pop/push: Fast TLS cache operations (lines 377-404)
// - fastcache_pop/push: Frontend fast cache (lines 873-888)
// - quick_pop: Quick slot pop operation (line 892-896)
#ifndef HAKMEM_TINY_FASTCACHE_INC_H
#define HAKMEM_TINY_FASTCACHE_INC_H
#include "hakmem_tiny.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdatomic.h>
// External TLS variables
extern int g_fast_enable;
extern uint16_t g_fast_cap[TINY_NUM_CLASSES];
extern __thread void* g_fast_head[TINY_NUM_CLASSES];
extern __thread uint16_t g_fast_count[TINY_NUM_CLASSES];
// Fast cache capacity
#define TINY_FASTCACHE_CAP 128
// Quick slot capacity
#define QUICK_CAP 6
// External variable declarations
// Note: TinyFastCache and TinyQuickSlot types must be defined before including this file
extern int g_fastcache_enable;
extern __thread TinyFastCache g_fast_cache[TINY_NUM_CLASSES];
extern int g_quick_enable;
extern __thread TinyQuickSlot g_tls_quick[TINY_NUM_CLASSES];
extern unsigned long long g_free_via_fastcache[];
extern unsigned long long g_fast_push_hits[];
extern unsigned long long g_fast_push_full[];
extern unsigned long long g_fast_push_disabled[];
extern unsigned long long g_fast_push_zero_cap[];
static int g_fast_debug_mode = -1;
static int g_fast_debug_limit = 8;
static _Atomic int g_fast_debug_seen[TINY_NUM_CLASSES];
static inline void tiny_fast_debug_log(int class_idx, const char* event, uint16_t count, uint16_t cap) {
if (__builtin_expect(g_fast_debug_mode == -1, 0)) {
const char* e = getenv("HAKMEM_TINY_FAST_DEBUG");
g_fast_debug_mode = (e && atoi(e) != 0) ? 1 : 0;
const char* limit_env = getenv("HAKMEM_TINY_FAST_DEBUG_MAX");
if (limit_env && *limit_env) {
int v = atoi(limit_env);
if (v > 0) g_fast_debug_limit = v;
}
}
if (!g_fast_debug_mode) return;
int limit = g_fast_debug_limit;
if (limit <= 0) limit = 8;
int seen = atomic_fetch_add_explicit(&g_fast_debug_seen[class_idx], 1, memory_order_relaxed);
if (seen < limit) {
fprintf(stderr, "[FASTDBG] class=%d event=%s count=%u cap=%u\n",
class_idx, event, (unsigned)count, (unsigned)cap);
}
}
// Tracepoint macros (no-op if not defined)
#ifndef HAK_TP1
#define HAK_TP1(name, idx) do { (void)(idx); } while(0)
#endif
// Basic fast cache operations
static inline __attribute__((always_inline)) void* tiny_fast_pop(int class_idx) {
if (!g_fast_enable) return NULL;
uint16_t cap = g_fast_cap[class_idx];
if (cap == 0) return NULL;
void* head = g_fast_head[class_idx];
if (!head) return NULL;
void* next = *(void**)head;
g_fast_head[class_idx] = next;
uint16_t count = g_fast_count[class_idx];
if (count > 0) {
g_fast_count[class_idx] = (uint16_t)(count - 1);
} else {
g_fast_count[class_idx] = 0;
}
return head;
}
static inline __attribute__((always_inline)) int tiny_fast_push(int class_idx, void* ptr) {
if (!g_fast_enable) {
g_fast_push_disabled[class_idx]++;
tiny_fast_debug_log(class_idx, "disabled", 0, 0);
return 0;
}
uint16_t cap = g_fast_cap[class_idx];
if (cap == 0) {
g_fast_push_zero_cap[class_idx]++;
tiny_fast_debug_log(class_idx, "zero_cap", g_fast_count[class_idx], cap);
return 0;
}
uint16_t count = g_fast_count[class_idx];
if (count >= cap) {
g_fast_push_full[class_idx]++;
tiny_fast_debug_log(class_idx, "full", count, cap);
return 0;
}
*(void**)ptr = g_fast_head[class_idx];
g_fast_head[class_idx] = ptr;
g_fast_count[class_idx] = (uint16_t)(count + 1);
g_fast_push_hits[class_idx]++;
tiny_fast_debug_log(class_idx, "hit", (uint16_t)(count + 1), cap);
return 1;
}
// Frontend fast cache operations
static inline void* fastcache_pop(int class_idx) {
TinyFastCache* fc = &g_fast_cache[class_idx];
if (__builtin_expect(fc->top > 0, 1)) {
return fc->items[--fc->top];
}
return NULL;
}
static inline int fastcache_push(int class_idx, void* ptr) {
TinyFastCache* fc = &g_fast_cache[class_idx];
if (__builtin_expect(fc->top < TINY_FASTCACHE_CAP, 1)) {
fc->items[fc->top++] = ptr;
g_free_via_fastcache[class_idx]++;
return 1;
}
return 0;
}
// Quick slot pop operation
static inline void* quick_pop(int class_idx) {
TinyQuickSlot* qs = &g_tls_quick[class_idx];
if (__builtin_expect(qs->top > 0, 1)) {
void* p = qs->items[--qs->top];
HAK_TP1(quick_pop, class_idx);
return p;
}
return NULL;
}
#endif // HAKMEM_TINY_FASTCACHE_INC_H
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