// tiny_c5_inline_slots.h - Phase 75-2: C5 Inline Slots Fast-Path API // // Goal: Zero-overhead fast-path API for C5 inline slot operations // Scope: C5 class only (separate from C6, tested independently) // Design: Always-inline, fail-fast to unified_cache on FULL/empty // // Performance Target: // - Push: 1-2 cycles (ring index update, no bounds check) // - Pop: 1-2 cycles (ring index update, null check) // - Fallback: Silent delegation to unified_cache (existing path) // // Integration Points: // - Alloc: Try c5_inline_pop() first, fallback to unified_cache_pop() // - Free: Try c5_inline_push() first, fallback to unified_cache_push() // // Safety: // - Caller must check c5_inline_enabled() before calling // - Caller must handle NULL return (pop) or full condition (push) // - No internal checks (fail-fast design) #ifndef HAK_FRONT_TINY_C5_INLINE_SLOTS_H #define HAK_FRONT_TINY_C5_INLINE_SLOTS_H #include #include "../box/tiny_c5_inline_slots_env_box.h" #include "../box/tiny_c5_inline_slots_tls_box.h" #include "../box/tiny_inline_slots_fixed_mode_box.h" #include "../box/tiny_inline_slots_overflow_stats_box.h" // ============================================================================ // Fast-Path API (always_inline for zero branch overhead) // ============================================================================ // Push to C5 inline slots (free path) // Returns: 1 on success, 0 if full (caller must fallback to unified_cache) // Precondition: ptr is valid BASE pointer for C5 class __attribute__((always_inline)) static inline int c5_inline_push(TinyC5InlineSlots* slots, void* ptr) { tiny_inline_slots_count_push_total(5); // Phase 87: Telemetry (all attempts) // Full check (single branch, likely taken in steady state) if (__builtin_expect(c5_inline_full(slots), 0)) { tiny_inline_slots_count_push_full(5); // Phase 87: Telemetry (overflow) return 0; // Full, caller must fallback } // Push to tail (FIFO producer) slots->slots[slots->tail] = ptr; slots->tail = (slots->tail + 1) % TINY_C5_INLINE_CAPACITY; return 1; // Success } // Pop from C5 inline slots (alloc path) // Returns: BASE pointer on success, NULL if empty (caller must fallback to unified_cache) // Precondition: slots is initialized and enabled __attribute__((always_inline)) static inline void* c5_inline_pop(TinyC5InlineSlots* slots) { tiny_inline_slots_count_pop_total(5); // Phase 87: Telemetry (all attempts) // Empty check (single branch, likely NOT taken in steady state) if (__builtin_expect(c5_inline_empty(slots), 0)) { tiny_inline_slots_count_pop_empty(5); // Phase 87: Telemetry (underflow) return NULL; // Empty, caller must fallback } // Pop from head (FIFO consumer) void* ptr = slots->slots[slots->head]; slots->head = (slots->head + 1) % TINY_C5_INLINE_CAPACITY; return ptr; // BASE pointer (caller converts to USER) } // ============================================================================ // Integration Helpers (for malloc_tiny_fast.h integration) // ============================================================================ // Get TLS instance (wraps extern TLS variable) static inline TinyC5InlineSlots* c5_inline_tls(void) { return &g_tiny_c5_inline_slots; } // Check if C5 inline is enabled AND initialized (combined gate) // Returns: 1 if ready to use, 0 if disabled or uninitialized static inline int c5_inline_ready(void) { if (!tiny_c5_inline_slots_enabled_fast()) { return 0; } // TLS init check (once per thread) // Note: In production, this check can be eliminated if TLS init is guaranteed TinyC5InlineSlots* slots = c5_inline_tls(); return (slots->slots != NULL || slots->head == 0); // Initialized if zero or non-null } #endif // HAK_FRONT_TINY_C5_INLINE_SLOTS_H