Gitly


1 module stdatomic
2 
3 // Implement the atomic operations. For now TCC does not support the atomic
4 // versions on nix so it uses locks to simulate the same behavior.
5 //
6 // On windows tcc can simulate with other atomic operations.
7 //
8 // Note: this implementations should be regarded as alpha stage and be tested
9 // much more.
10 
11 // add_u64 adds provided delta as an atomic operation
12 @[inline]
13 pub fn add_u64(ptr &u64, delta int) u64 {
14     C.atomic_fetch_add_u64(voidptr(ptr), delta)
15     return *ptr
16 }
17 
18 // sub_u64 subtracts provided delta as an atomic operation
19 @[inline]
20 pub fn sub_u64(ptr &u64, delta int) u64 {
21     C.atomic_fetch_sub_u64(voidptr(ptr), delta)
22     return *ptr
23 }
24 
25 // add_i64 adds provided delta as an atomic operation
26 @[inline]
27 pub fn add_i64(ptr &i64, delta int) i64 {
28     C.atomic_fetch_add_u64(voidptr(ptr), delta)
29     return *ptr
30 }
31 
32 // add_i64 subtracts provided delta as an atomic operation
33 @[inline]
34 pub fn sub_i64(ptr &i64, delta int) i64 {
35     C.atomic_fetch_sub_u64(voidptr(ptr), delta)
36     return *ptr
37 }
38 
39 // atomic store/load operations have to be used when there might be another concurrent access
40 // atomicall set a value
41 @[inline]
42 pub fn store_u64(ptr &u64, val u64) {
43     C.atomic_store_u64(voidptr(ptr), val)
44 }
45 
46 // atomicall get a value
47 @[inline]
48 pub fn load_u64(ptr &u64) u64 {
49     return C.atomic_load_u64(voidptr(ptr))
50 }
51 
52 // atomicall set a value
53 @[inline]
54 pub fn store_i64(ptr &i64, val i64) {
55     C.atomic_store_u64(voidptr(ptr), val)
56 }
57 
58 // atomicall get a value
59 @[inline]
60 pub fn load_i64(ptr &i64) i64 {
61     return i64(C.atomic_load_u64(voidptr(ptr)))
62 }
63 
64 @[heap]
65 pub struct AtomicVal[T] {
66     val T
67 }
68 
69 // new_atomic creates a new atomic value of `T` type
70 @[inline]
71 pub fn new_atomic[T](val T) &AtomicVal[T] {
72     $if T is $int {
73         return &AtomicVal[T]{
74             val: val
75         }
76     } $else $if T is bool {
77         return &AtomicVal[T]{
78             val: val
79         }
80     } $else $if T is voidptr {
81         return &AtomicVal[T]{
82             val: val
83         }
84     } $else {
85         $compile_error('atomic: only support number, bool, and voidptr types')
86     }
87     return unsafe { nil }
88 }
89 
90 // load returns current value of the atomic value
91 @[inline]
92 pub fn (mut a AtomicVal[T]) load() T {
93     $if T is bool {
94         return C.atomic_load_byte(voidptr(&a.val)) != 0
95     } $else $if T is u8 || T is i8 {
96         return T(C.atomic_load_byte(voidptr(&a.val)))
97     } $else $if T is u16 || T is i16 {
98         return T(C.atomic_load_u16(voidptr(&a.val)))
99     } $else $if T is u32 || T is i32 {
100         return T(C.atomic_load_u32(voidptr(&a.val)))
101     } $else $if T is u64 || T is i64 {
102         return T(C.atomic_load_u64(voidptr(&a.val)))
103     } $else $if T is int {
104         if sizeof(int) == 4 {
105             return int(C.atomic_load_u32(voidptr(&a.val)))
106         } else {
107             return int(C.atomic_load_u64(voidptr(&a.val)))
108         }
109     } $else $if T is isize || T is usize {
110         if sizeof(isize) == 4 {
111             return T(C.atomic_load_u32(voidptr(&a.val)))
112         } else {
113             return T(C.atomic_load_u64(voidptr(&a.val)))
114         }
115     } $else $if T is voidptr {
116         // TODO: this should be $if sizeof(T) == 4
117         $if x32 {
118             return T(C.atomic_load_u32(voidptr(&a.val)))
119         } $else {
120             return T(C.atomic_load_u64(voidptr(&a.val)))
121         }
122     }
123     return a.val
124 }
125 
126 // store updates the atomic value with `val`
127 @[inline]
128 pub fn (mut a AtomicVal[T]) store(val T) {
129     $if T is bool {
130         C.atomic_store_byte(voidptr(&a.val), u8(val))
131     } $else $if T is u8 || T is i8 {
132         C.atomic_store_byte(voidptr(&a.val), u8(val))
133     } $else $if T is u16 || T is i16 {
134         C.atomic_store_u16(voidptr(&a.val), u16(val))
135     } $else $if T is u32 || T is i32 {
136         C.atomic_store_u32(voidptr(&a.val), u32(val))
137     } $else $if T is u64 || T is i64 {
138         C.atomic_store_u64(voidptr(&a.val), u64(val))
139     } $else $if T is int {
140         if sizeof(int) == 4 {
141             C.atomic_store_u32(voidptr(&a.val), u32(val))
142         } else {
143             C.atomic_store_u64(voidptr(&a.val), u64(val))
144         }
145     } $else $if T is isize || T is usize {
146         if sizeof(isize) == 4 {
147             C.atomic_store_u32(voidptr(&a.val), u32(val))
148         } else {
149             C.atomic_store_u64(voidptr(&a.val), u64(val))
150         }
151     } $else $if T is voidptr {
152         // TODO: this should be $if sizeof(T) == 4
153         $if x32 {
154             C.atomic_store_u32(voidptr(&a.val), u32(val))
155         } $else {
156             C.atomic_store_u64(voidptr(&a.val), u64(val))
157         }
158     }
159 }
160 
161 // add adds the atomic value with `delta` and returns the previous value
162 @[inline]
163 pub fn (mut a AtomicVal[T]) add(delta T) T {
164     $if T is bool {
165         panic('atomic: add() not supported for bool type')
166     } $else $if T is voidptr {
167         panic('atomic: add() not supported for voidptr type')
168     } $else $if T is u8 || T is i8 {
169         old := C.atomic_fetch_add_byte(voidptr(&a.val), u8(delta))
170         return T(old)
171     } $else $if T is u16 || T is i16 {
172         old := C.atomic_fetch_add_u16(voidptr(&a.val), u16(delta))
173         return T(old)
174     } $else $if T is u32 || T is i32 {
175         old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
176         return T(old)
177     } $else $if T is u64 || T is i64 {
178         old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
179         return T(old)
180     } $else $if T is int {
181         if sizeof(int) == 4 {
182             old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
183             return T(old)
184         } else {
185             old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
186             return T(old)
187         }
188     } $else $if T is isize || T is usize {
189         if sizeof(isize) == 4 {
190             old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
191             return T(old)
192         } else {
193             old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
194             return T(old)
195         }
196     }
197     panic('unreachable')
198 }
199 
200 // sub subtracts the atomic value with `delta` and returns the previous value
201 @[inline]
202 pub fn (mut a AtomicVal[T]) sub(delta T) T {
203     $if T is bool {
204         panic('atomic: sub() not supported for bool type')
205     } $else $if T is voidptr {
206         panic('atomic: sub() not supported for voidptr type')
207     } $else $if T is u8 || T is i8 {
208         old := C.atomic_fetch_sub_byte(voidptr(&a.val), u8(delta))
209         return T(old)
210     } $else $if T is u16 || T is i16 {
211         old := C.atomic_fetch_sub_u16(voidptr(&a.val), u16(delta))
212         return T(old)
213     } $else $if T is u32 || T is i32 {
214         old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
215         return T(old)
216     } $else $if T is u64 || T is i64 {
217         old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
218         return T(old)
219     } $else $if T is int {
220         if sizeof(int) == 4 {
221             old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
222             return T(old)
223         } else {
224             old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
225             return T(old)
226         }
227     } $else $if T is isize || T is usize {
228         if sizeof(isize) == 4 {
229             old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
230             return T(old)
231         } else {
232             old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
233             return T(old)
234         }
235     }
236     panic('unreachable')
237 }
238 
239 // swap sets the `new` value and returns the previous value
240 @[inline]
241 pub fn (mut a AtomicVal[T]) swap(new T) T {
242     $if T is bool {
243         old := C.atomic_exchange_byte(voidptr(&a.val), u8(new))
244         return old != 0
245     } $else $if T is u8 || T is i8 {
246         old := C.atomic_exchange_byte(voidptr(&a.val), u8(new))
247         return T(old)
248     } $else $if T is u16 || T is i16 {
249         old := C.atomic_exchange_u16(voidptr(&a.val), u16(new))
250         return T(old)
251     } $else $if T is u32 || T is i32 {
252         old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
253         return T(old)
254     } $else $if T is u64 || T is i64 {
255         old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
256         return T(old)
257     } $else $if T is int {
258         if sizeof(int) == 4 {
259             old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
260             return T(old)
261         } else {
262             old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
263             return T(old)
264         }
265     } $else $if T is isize || T is usize {
266         if sizeof(isize) == 4 {
267             old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
268             return T(old)
269         } else {
270             old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
271             return T(old)
272         }
273     } $else $if T is voidptr {
274         // TODO: this should be $if sizeof(T) == 4
275         $if x32 {
276             old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
277             return T(old)
278         } $else {
279             old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
280             return T(old)
281         }
282     }
283     panic('unreachable')
284 }
285 
286 // compare_and_swap executes the compare-and-swap(CAS) operation
287 // if atomic value == `expected`, then it will be set to `new`, and return true
288 // else return false, and the atomic value remains unchanged
289 @[inline]
290 pub fn (mut a AtomicVal[T]) compare_and_swap(expected T, new T) bool {
291     $if T is bool {
292         mut exp := u8(expected)
293         return C.atomic_compare_exchange_strong_byte(voidptr(&a.val), &exp, u8(new))
294     } $else $if T is u8 || T is i8 {
295         mut exp := u8(expected)
296         return C.atomic_compare_exchange_strong_byte(voidptr(&a.val), &exp, u8(new))
297     } $else $if T is u16 || T is i16 {
298         mut exp := u16(expected)
299         return C.atomic_compare_exchange_strong_u16(voidptr(&a.val), &exp, u16(new))
300     } $else $if T is u32 || T is i32 {
301         mut exp := u32(expected)
302         return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
303     } $else $if T is u64 || T is i64 {
304         mut exp := u64(expected)
305         return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
306     } $else $if T is int {
307         if sizeof(int) == 4 {
308             mut exp := u32(expected)
309             return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
310         } else {
311             mut exp := u64(expected)
312             return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
313         }
314     } $else $if T is isize || T is usize {
315         if sizeof(isize) == 4 {
316             mut exp := u32(expected)
317             return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
318         } else {
319             mut exp := u64(expected)
320             return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
321         }
322     } $else $if T is voidptr {
323         // TODO: this should be $if sizeof(T) == 4
324         $if x32 {
325             mut exp := u32(expected)
326             return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
327         } $else {
328             mut exp := u64(expected)
329             return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
330         }
331     }
332     panic('unreachable')
333 }
334

1	module stdatomic
2
3	// Implement the atomic operations. For now TCC does not support the atomic
4	// versions on nix so it uses locks to simulate the same behavior.
5	//
6	// On windows tcc can simulate with other atomic operations.
7	//
8	// Note: this implementations should be regarded as alpha stage and be tested
9	// much more.
10
11	// add_u64 adds provided delta as an atomic operation
12	@[inline]
13	pub fn add_u64(ptr &u64, delta int) u64 {
14	C.atomic_fetch_add_u64(voidptr(ptr), delta)
15	return *ptr
16	}
17
18	// sub_u64 subtracts provided delta as an atomic operation
19	@[inline]
20	pub fn sub_u64(ptr &u64, delta int) u64 {
21	C.atomic_fetch_sub_u64(voidptr(ptr), delta)
22	return *ptr
23	}
24
25	// add_i64 adds provided delta as an atomic operation
26	@[inline]
27	pub fn add_i64(ptr &i64, delta int) i64 {
28	C.atomic_fetch_add_u64(voidptr(ptr), delta)
29	return *ptr
30	}
31
32	// add_i64 subtracts provided delta as an atomic operation
33	@[inline]
34	pub fn sub_i64(ptr &i64, delta int) i64 {
35	C.atomic_fetch_sub_u64(voidptr(ptr), delta)
36	return *ptr
37	}
38
39	// atomic store/load operations have to be used when there might be another concurrent access
40	// atomicall set a value
41	@[inline]
42	pub fn store_u64(ptr &u64, val u64) {
43	C.atomic_store_u64(voidptr(ptr), val)
44	}
45
46	// atomicall get a value
47	@[inline]
48	pub fn load_u64(ptr &u64) u64 {
49	return C.atomic_load_u64(voidptr(ptr))
50	}
51
52	// atomicall set a value
53	@[inline]
54	pub fn store_i64(ptr &i64, val i64) {
55	C.atomic_store_u64(voidptr(ptr), val)
56	}
57
58	// atomicall get a value
59	@[inline]
60	pub fn load_i64(ptr &i64) i64 {
61	return i64(C.atomic_load_u64(voidptr(ptr)))
62	}
63
64	@[heap]
65	pub struct AtomicVal[T] {
66	val T
67	}
68
69	// new_atomic creates a new atomic value of `T` type
70	@[inline]
71	pub fn new_atomic[T](val T) &AtomicVal[T] {
72	$if T is $int {
73	return &AtomicVal[T]{
74	val: val
75	}
76	} $else $if T is bool {
77	return &AtomicVal[T]{
78	val: val
79	}
80	} $else $if T is voidptr {
81	return &AtomicVal[T]{
82	val: val
83	}
84	} $else {
85	$compile_error('atomic: only support number, bool, and voidptr types')
86	}
87	return unsafe { nil }
88	}
89
90	// load returns current value of the atomic value
91	@[inline]
92	pub fn (mut a AtomicVal[T]) load() T {
93	$if T is bool {
94	return C.atomic_load_byte(voidptr(&a.val)) != 0
95	} $else $if T is u8 \|\| T is i8 {
96	return T(C.atomic_load_byte(voidptr(&a.val)))
97	} $else $if T is u16 \|\| T is i16 {
98	return T(C.atomic_load_u16(voidptr(&a.val)))
99	} $else $if T is u32 \|\| T is i32 {
100	return T(C.atomic_load_u32(voidptr(&a.val)))
101	} $else $if T is u64 \|\| T is i64 {
102	return T(C.atomic_load_u64(voidptr(&a.val)))
103	} $else $if T is int {
104	if sizeof(int) == 4 {
105	return int(C.atomic_load_u32(voidptr(&a.val)))
106	} else {
107	return int(C.atomic_load_u64(voidptr(&a.val)))
108	}
109	} $else $if T is isize \|\| T is usize {
110	if sizeof(isize) == 4 {
111	return T(C.atomic_load_u32(voidptr(&a.val)))
112	} else {
113	return T(C.atomic_load_u64(voidptr(&a.val)))
114	}
115	} $else $if T is voidptr {
116	// TODO: this should be $if sizeof(T) == 4
117	$if x32 {
118	return T(C.atomic_load_u32(voidptr(&a.val)))
119	} $else {
120	return T(C.atomic_load_u64(voidptr(&a.val)))
121	}
122	}
123	return a.val
124	}
125
126	// store updates the atomic value with `val`
127	@[inline]
128	pub fn (mut a AtomicVal[T]) store(val T) {
129	$if T is bool {
130	C.atomic_store_byte(voidptr(&a.val), u8(val))
131	} $else $if T is u8 \|\| T is i8 {
132	C.atomic_store_byte(voidptr(&a.val), u8(val))
133	} $else $if T is u16 \|\| T is i16 {
134	C.atomic_store_u16(voidptr(&a.val), u16(val))
135	} $else $if T is u32 \|\| T is i32 {
136	C.atomic_store_u32(voidptr(&a.val), u32(val))
137	} $else $if T is u64 \|\| T is i64 {
138	C.atomic_store_u64(voidptr(&a.val), u64(val))
139	} $else $if T is int {
140	if sizeof(int) == 4 {
141	C.atomic_store_u32(voidptr(&a.val), u32(val))
142	} else {
143	C.atomic_store_u64(voidptr(&a.val), u64(val))
144	}
145	} $else $if T is isize \|\| T is usize {
146	if sizeof(isize) == 4 {
147	C.atomic_store_u32(voidptr(&a.val), u32(val))
148	} else {
149	C.atomic_store_u64(voidptr(&a.val), u64(val))
150	}
151	} $else $if T is voidptr {
152	// TODO: this should be $if sizeof(T) == 4
153	$if x32 {
154	C.atomic_store_u32(voidptr(&a.val), u32(val))
155	} $else {
156	C.atomic_store_u64(voidptr(&a.val), u64(val))
157	}
158	}
159	}
160
161	// add adds the atomic value with `delta` and returns the previous value
162	@[inline]
163	pub fn (mut a AtomicVal[T]) add(delta T) T {
164	$if T is bool {
165	panic('atomic: add() not supported for bool type')
166	} $else $if T is voidptr {
167	panic('atomic: add() not supported for voidptr type')
168	} $else $if T is u8 \|\| T is i8 {
169	old := C.atomic_fetch_add_byte(voidptr(&a.val), u8(delta))
170	return T(old)
171	} $else $if T is u16 \|\| T is i16 {
172	old := C.atomic_fetch_add_u16(voidptr(&a.val), u16(delta))
173	return T(old)
174	} $else $if T is u32 \|\| T is i32 {
175	old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
176	return T(old)
177	} $else $if T is u64 \|\| T is i64 {
178	old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
179	return T(old)
180	} $else $if T is int {
181	if sizeof(int) == 4 {
182	old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
183	return T(old)
184	} else {
185	old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
186	return T(old)
187	}
188	} $else $if T is isize \|\| T is usize {
189	if sizeof(isize) == 4 {
190	old := C.atomic_fetch_add_u32(voidptr(&a.val), u32(delta))
191	return T(old)
192	} else {
193	old := C.atomic_fetch_add_u64(voidptr(&a.val), u64(delta))
194	return T(old)
195	}
196	}
197	panic('unreachable')
198	}
199
200	// sub subtracts the atomic value with `delta` and returns the previous value
201	@[inline]
202	pub fn (mut a AtomicVal[T]) sub(delta T) T {
203	$if T is bool {
204	panic('atomic: sub() not supported for bool type')
205	} $else $if T is voidptr {
206	panic('atomic: sub() not supported for voidptr type')
207	} $else $if T is u8 \|\| T is i8 {
208	old := C.atomic_fetch_sub_byte(voidptr(&a.val), u8(delta))
209	return T(old)
210	} $else $if T is u16 \|\| T is i16 {
211	old := C.atomic_fetch_sub_u16(voidptr(&a.val), u16(delta))
212	return T(old)
213	} $else $if T is u32 \|\| T is i32 {
214	old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
215	return T(old)
216	} $else $if T is u64 \|\| T is i64 {
217	old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
218	return T(old)
219	} $else $if T is int {
220	if sizeof(int) == 4 {
221	old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
222	return T(old)
223	} else {
224	old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
225	return T(old)
226	}
227	} $else $if T is isize \|\| T is usize {
228	if sizeof(isize) == 4 {
229	old := C.atomic_fetch_sub_u32(voidptr(&a.val), u32(delta))
230	return T(old)
231	} else {
232	old := C.atomic_fetch_sub_u64(voidptr(&a.val), u64(delta))
233	return T(old)
234	}
235	}
236	panic('unreachable')
237	}
238
239	// swap sets the `new` value and returns the previous value
240	@[inline]
241	pub fn (mut a AtomicVal[T]) swap(new T) T {
242	$if T is bool {
243	old := C.atomic_exchange_byte(voidptr(&a.val), u8(new))
244	return old != 0
245	} $else $if T is u8 \|\| T is i8 {
246	old := C.atomic_exchange_byte(voidptr(&a.val), u8(new))
247	return T(old)
248	} $else $if T is u16 \|\| T is i16 {
249	old := C.atomic_exchange_u16(voidptr(&a.val), u16(new))
250	return T(old)
251	} $else $if T is u32 \|\| T is i32 {
252	old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
253	return T(old)
254	} $else $if T is u64 \|\| T is i64 {
255	old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
256	return T(old)
257	} $else $if T is int {
258	if sizeof(int) == 4 {
259	old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
260	return T(old)
261	} else {
262	old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
263	return T(old)
264	}
265	} $else $if T is isize \|\| T is usize {
266	if sizeof(isize) == 4 {
267	old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
268	return T(old)
269	} else {
270	old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
271	return T(old)
272	}
273	} $else $if T is voidptr {
274	// TODO: this should be $if sizeof(T) == 4
275	$if x32 {
276	old := C.atomic_exchange_u32(voidptr(&a.val), u32(new))
277	return T(old)
278	} $else {
279	old := C.atomic_exchange_u64(voidptr(&a.val), u64(new))
280	return T(old)
281	}
282	}
283	panic('unreachable')
284	}
285
286	// compare_and_swap executes the compare-and-swap(CAS) operation
287	// if atomic value == `expected`, then it will be set to `new`, and return true
288	// else return false, and the atomic value remains unchanged
289	@[inline]
290	pub fn (mut a AtomicVal[T]) compare_and_swap(expected T, new T) bool {
291	$if T is bool {
292	mut exp := u8(expected)
293	return C.atomic_compare_exchange_strong_byte(voidptr(&a.val), &exp, u8(new))
294	} $else $if T is u8 \|\| T is i8 {
295	mut exp := u8(expected)
296	return C.atomic_compare_exchange_strong_byte(voidptr(&a.val), &exp, u8(new))
297	} $else $if T is u16 \|\| T is i16 {
298	mut exp := u16(expected)
299	return C.atomic_compare_exchange_strong_u16(voidptr(&a.val), &exp, u16(new))
300	} $else $if T is u32 \|\| T is i32 {
301	mut exp := u32(expected)
302	return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
303	} $else $if T is u64 \|\| T is i64 {
304	mut exp := u64(expected)
305	return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
306	} $else $if T is int {
307	if sizeof(int) == 4 {
308	mut exp := u32(expected)
309	return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
310	} else {
311	mut exp := u64(expected)
312	return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
313	}
314	} $else $if T is isize \|\| T is usize {
315	if sizeof(isize) == 4 {
316	mut exp := u32(expected)
317	return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
318	} else {
319	mut exp := u64(expected)
320	return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
321	}
322	} $else $if T is voidptr {
323	// TODO: this should be $if sizeof(T) == 4
324	$if x32 {
325	mut exp := u32(expected)
326	return C.atomic_compare_exchange_strong_u32(voidptr(&a.val), &exp, u32(new))
327	} $else {
328	mut exp := u64(expected)
329	return C.atomic_compare_exchange_strong_u64(voidptr(&a.val), &exp, u64(new))
330	}
331	}
332	panic('unreachable')
333	}
334