/* * Copyright © 2007 Chris Wilson * Copyright © 2009,2010 Red Hat, Inc. * Copyright © 2011,2012 Google, Inc. * * This is part of HarfBuzz, a text shaping library. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and its documentation for any purpose, provided that the * above copyright notice and the following two paragraphs appear in * all copies of this software. * * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. * * Contributor(s): * Chris Wilson * Red Hat Author(s): Behdad Esfahbod * Google Author(s): Behdad Esfahbod */ #ifndef HB_ATOMIC_PRIVATE_HH #define HB_ATOMIC_PRIVATE_HH #include "hb-private.hh" /* * Atomic integers and pointers. */ /* We need external help for these */ #if defined(hb_atomic_int_impl_add) \ && defined(hb_atomic_ptr_impl_get) \ && defined(hb_atomic_ptr_impl_cmpexch) /* Defined externally, i.e. in config.h. */ #elif !defined(HB_NO_MT) && defined(__ATOMIC_CONSUME) /* C++11-style GCC primitives. */ #define hb_atomic_int_impl_add(AI, V) __atomic_fetch_add ((AI), (V), __ATOMIC_ACQ_REL) #define hb_atomic_int_impl_set_relaxed(AI, V) __atomic_store_n ((AI), (V), __ATOMIC_RELAXED) #define hb_atomic_int_impl_get_relaxed(AI) __atomic_load_n ((AI), __ATOMIC_RELAXED) #define hb_atomic_ptr_impl_set_relaxed(P, V) __atomic_store_n ((P), (V), __ATOMIC_RELAXED) #define hb_atomic_ptr_impl_get_relaxed(P) __atomic_load_n ((P), __ATOMIC_RELAXED) #define hb_atomic_ptr_impl_get(P) __atomic_load_n ((P), __ATOMIC_CONSUME) static inline bool _hb_atomic_ptr_impl_cmplexch (const void **P, const void *O_, const void *N) { const void *O = O_; // Need lvalue return __atomic_compare_exchange_n ((void **) P, (void **) &O, (void *) N, true, __ATOMIC_ACQ_REL, __ATOMIC_RELAXED); } #define hb_atomic_ptr_impl_cmpexch(P,O,N) _hb_atomic_ptr_impl_cmplexch ((const void **) (P), (O), (N)) #elif !defined(HB_NO_MT) && __cplusplus >= 201103L /* C++11 atomics. */ #include #define hb_atomic_int_impl_add(AI, V) (reinterpret_cast *> (AI)->fetch_add ((V), std::memory_order_acq_rel)) #define hb_atomic_int_impl_set_relaxed(AI, V) (reinterpret_cast *> (AI)->store ((V), std::memory_order_relaxed)) #define hb_atomic_int_impl_get_relaxed(AI) (reinterpret_cast *> (AI)->load (std::memory_order_relaxed)) #define hb_atomic_ptr_impl_set_relaxed(P, V) (reinterpret_cast *> (P)->store ((V), std::memory_order_relaxed)) #define hb_atomic_ptr_impl_get_relaxed(P) (reinterpret_cast *> (P)->load (std::memory_order_relaxed)) #define hb_atomic_ptr_impl_get(P) (reinterpret_cast *> (P)->load (std::memory_order_consume)) static inline bool _hb_atomic_ptr_impl_cmplexch (const void **P, const void *O_, const void *N) { const void *O = O_; // Need lvalue return reinterpret_cast *> (P)->compare_exchange_weak (O, N, std::memory_order_acq_rel, std::memory_order_relaxed); } #define hb_atomic_ptr_impl_cmpexch(P,O,N) _hb_atomic_ptr_impl_cmplexch ((const void **) (P), (O), (N)) #elif !defined(HB_NO_MT) && (defined(_WIN32) || defined(__CYGWIN__)) #include static inline void _hb_memory_barrier (void) { #if !defined(MemoryBarrier) /* MinGW has a convoluted history of supporting MemoryBarrier. */ long dummy = 0; InterlockedExchange (&dummy, 1); #else MemoryBarrier (); #endif } #define _hb_memory_barrier() _hb_memory_barrier () #define hb_atomic_int_impl_add(AI, V) InterlockedExchangeAdd ((unsigned *) (AI), (V)) #define hb_atomic_ptr_impl_cmpexch(P,O,N) (InterlockedCompareExchangePointer ((void **) (P), (void *) (N), (void *) (O)) == (void *) (O)) #elif !defined(HB_NO_MT) && defined(HAVE_INTEL_ATOMIC_PRIMITIVES) #define _hb_memory_barrier() __sync_synchronize () #define hb_atomic_int_impl_add(AI, V) __sync_fetch_and_add ((AI), (V)) #define hb_atomic_ptr_impl_cmpexch(P,O,N) __sync_bool_compare_and_swap ((P), (O), (N)) #elif !defined(HB_NO_MT) && defined(HAVE_SOLARIS_ATOMIC_OPS) #include #include #define _hb_memory_r_barrier() __machine_r_barrier () #define _hb_memory_w_barrier() __machine_w_barrier () #define _hb_memory_barrier() __machine_rw_barrier () static inline int _hb_fetch_and_add (int *AI, int V) { _hb_memory_w_barrier (); int result = atomic_add_int_nv ((uint_t *) AI, V); _hb_memory_r_barrier (); return result; } static inline bool _hb_compare_and_swap_ptr (const void **P, const void *O, const void *N) { _hb_memory_w_barrier (); int result = atomic_cas_ptr ((void **) P, (void *) O, (void *) N) == (void *) O; _hb_memory_r_barrier (); return result; } #define hb_atomic_int_impl_add(AI, V) _hb_fetch_and_add ((AI), (V)) #define hb_atomic_ptr_impl_cmpexch(P,O,N) _hb_compare_and_swap_ptr ((const void **) (P), (O), (N)) #elif !defined(HB_NO_MT) && defined(__APPLE__) #include #ifdef __MAC_OS_X_MIN_REQUIRED #include #elif defined(__IPHONE_OS_MIN_REQUIRED) #include #endif #define _hb_memory_barrier() OSMemoryBarrier () #define hb_atomic_int_impl_add(AI, V) (OSAtomicAdd32Barrier ((V), (AI)) - (V)) #if (MAC_OS_X_VERSION_MIN_REQUIRED > MAC_OS_X_VERSION_10_4 || __IPHONE_VERSION_MIN_REQUIRED >= 20100) #define hb_atomic_ptr_impl_cmpexch(P,O,N) OSAtomicCompareAndSwapPtrBarrier ((void *) (O), (void *) (N), (void **) (P)) #else #if __ppc64__ || __x86_64__ || __aarch64__ #define hb_atomic_ptr_impl_cmpexch(P,O,N) OSAtomicCompareAndSwap64Barrier ((int64_t) (void *) (O), (int64_t) (void *) (N), (int64_t*) (P)) #else #define hb_atomic_ptr_impl_cmpexch(P,O,N) OSAtomicCompareAndSwap32Barrier ((int32_t) (void *) (O), (int32_t) (void *) (N), (int32_t*) (P)) #endif #endif #elif !defined(HB_NO_MT) && defined(_AIX) && defined(__IBMCPP__) #include #define _hb_memory_barrier() __lwsync () static inline int _hb_fetch_and_add (int *AI, int V) { _hb_memory_barrier (); int result = __fetch_and_add (AI, V); _hb_memory_barrier (); return result; } static inline bool _hb_compare_and_swaplp (long *P, long O, long N) { _hb_memory_barrier (); bool result = __compare_and_swaplp (P, &O, N); _hb_memory_barrier (); return result; } #define hb_atomic_int_impl_add(AI, V) _hb_fetch_and_add ((AI), (V)) #define hb_atomic_ptr_impl_cmpexch(P,O,N) _hb_compare_and_swaplp ((long *) (P), (long) (O), (long) (N)) static_assert ((sizeof (long) == sizeof (void *)), ""); #elif !defined(HB_NO_MT) #define HB_ATOMIC_INT_NIL 1 /* Warn that fallback implementation is in use. */ #define _hb_memory_barrier() #define hb_atomic_int_impl_add(AI, V) ((*(AI) += (V)) - (V)) #define hb_atomic_ptr_impl_cmpexch(P,O,N) (* (void **) (P) == (void *) (O) ? (* (void **) (P) = (void *) (N), true) : false) #else /* HB_NO_MT */ #define hb_atomic_int_impl_add(AI, V) ((*(AI) += (V)) - (V)) #define _hb_memory_barrier() #define hb_atomic_ptr_impl_cmpexch(P,O,N) (* (void **) (P) == (void *) (O) ? (* (void **) (P) = (void *) (N), true) : false) #endif #ifndef _hb_memory_r_barrier #define _hb_memory_r_barrier() _hb_memory_barrier () #endif #ifndef _hb_memory_w_barrier #define _hb_memory_w_barrier() _hb_memory_barrier () #endif #ifndef hb_atomic_int_impl_set_relaxed #define hb_atomic_int_impl_set_relaxed(AI, V) (*(AI) = (V)) #endif #ifndef hb_atomic_int_impl_get_relaxed #define hb_atomic_int_impl_get_relaxed(AI) (*(AI)) #endif #ifndef hb_atomic_ptr_impl_set_relaxed #define hb_atomic_ptr_impl_set_relaxed(P, V) (*(P) = (V)) #endif #ifndef hb_atomic_ptr_impl_get_relaxed #define hb_atomic_ptr_impl_get_relaxed(P) (*(P)) #endif #ifndef hb_atomic_ptr_impl_get inline void *hb_atomic_ptr_impl_get (void **P) { void *v = *P; _hb_memory_r_barrier (); return v; } #endif #define HB_ATOMIC_INT_INIT(V) {V} struct hb_atomic_int_t { inline void set_relaxed (int v_) const { hb_atomic_int_impl_set_relaxed (&v, v_); } inline int get_relaxed (void) const { return hb_atomic_int_impl_get_relaxed (&v); } inline int inc (void) { return hb_atomic_int_impl_add (&v, 1); } inline int dec (void) { return hb_atomic_int_impl_add (&v, -1); } mutable int v; }; template struct hb_remove_ptr_t { typedef T value; }; template struct hb_remove_ptr_t { typedef T value; }; #define HB_ATOMIC_PTR_INIT(V) {V} template struct hb_atomic_ptr_t { typedef typename hb_remove_ptr_t

::value T; inline void init (T* v_ = nullptr) { set_relaxed (v_); } inline void set_relaxed (T* v_) const { hb_atomic_ptr_impl_set_relaxed (&v, v_); } inline T *get_relaxed (void) const { return hb_atomic_ptr_impl_get_relaxed (&v); } inline T *get (void) const { return (T *) hb_atomic_ptr_impl_get ((void **) &v); } inline bool cmpexch (const T *old, T *new_) const{ return hb_atomic_ptr_impl_cmpexch (&v, old, new_); } mutable T *v; }; #endif /* HB_ATOMIC_PRIVATE_HH */