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containers.hfa@ 7d9bbef

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ADT arm-eh ast-experimental enum forall-pointer-decay jacob/cs343-translation new-ast new-ast-unique-expr pthread-emulation qualifiedEnum

Last change on this file since 7d9bbef was 92e7631, checked in by Thierry Delisle <tdelisle@…>, 5 years ago
Fixed ready state. Fixed race condition between halt and wake_*
Property mode set to `100644`
File size: 6.6 KB

Line
1	//
2	// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// bits/containers.hfa -- Intrusive generic containers.hfa
8	//
9	// Author : Thierry Delisle
10	// Created On : Tue Oct 31 16:38:50 2017
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Wed Jan 15 07:42:35 2020
13	// Update Count : 28
14
15	#pragma once
16
17	#include "bits/align.hfa"
18	#include "bits/defs.hfa"
19
20	//-----------------------------------------------------------------------------
21	// Array
22	//-----------------------------------------------------------------------------
23
24	#ifdef __cforall
25	forall(dtype T)
26	#else
27	#define T void
28	#endif
29	struct __small_array {
30	T * data;
31	__lock_size_t size;
32	};
33	#undef T
34
35	#ifdef __cforall
36	#define __small_array_t(T) __small_array(T)
37	#else
38	#define __small_array_t(T) struct __small_array
39	#endif
40
41	#ifdef __cforall
42	// forall(otype T \| sized(T))
43	// static inline void ?{}(__small_array(T) & this) {}
44
45	forall(dtype T \| sized(T))
46	static inline T & ?[?]( __small_array(T) & this, __lock_size_t idx ) {
47	return ((typeof(this.data))this.data)[idx];
48	}
49
50	forall(dtype T \| sized(T))
51	static inline T & ?[?]( const __small_array(T) & this, __lock_size_t idx ) {
52	return ((typeof(this.data))this.data)[idx];
53	}
54
55	forall(dtype T)
56	static inline T * begin( const __small_array(T) & this ) {
57	return ((typeof(this.data))this.data);
58	}
59
60	forall(dtype T \| sized(T))
61	static inline T * end( const __small_array(T) & this ) {
62	return ((typeof(this.data))this.data) + this.size;
63	}
64	#endif
65
66	//-----------------------------------------------------------------------------
67	// Node Base
68	//-----------------------------------------------------------------------------
69
70	#ifdef __cforall
71	trait is_node(dtype T) {
72	T *& get_next( T & );
73	};
74	#endif
75
76	//-----------------------------------------------------------------------------
77	// Stack
78	//-----------------------------------------------------------------------------
79	#ifdef __cforall
80	forall(dtype TYPE)
81	#define T TYPE
82	#else
83	#define T void
84	#endif
85	struct __stack {
86	T * top;
87	};
88	#undef T
89
90	#ifdef __cforall
91	#define __stack_t(T) __stack(T)
92	#else
93	#define __stack_t(T) struct __stack
94	#endif
95
96	#ifdef __cforall
97	forall(dtype T)
98	static inline void ?{}( __stack(T) & this ) {
99	(this.top){ 0p };
100	}
101
102	static inline forall( dtype T \| is_node(T) ) {
103	void push( __stack(T) & this, T * val ) {
104	verify( !get_next( *val ) );
105	get_next( *val ) = this.top;
106	this.top = val;
107	}
108
109	T * pop( __stack(T) & this ) {
110	T * top = this.top;
111	if( top ) {
112	this.top = get_next( *top );
113	get_next( *top ) = 0p;
114	}
115	return top;
116	}
117
118	int ?!=?( const __stack(T) & this, __attribute__((unused)) zero_t zero ) {
119	return this.top != 0;
120	}
121	}
122	#endif
123
124	//-----------------------------------------------------------------------------
125	// Queue
126	//-----------------------------------------------------------------------------
127	#ifdef __cforall
128	forall(dtype TYPE)
129	#define T TYPE
130	#else
131	#define T void
132	#endif
133	struct __queue {
134	T * head;
135	T ** tail;
136	};
137	#undef T
138
139	#ifdef __cforall
140	#define __queue_t(T) __queue(T)
141	#else
142	#define __queue_t(T) struct __queue
143	#endif
144
145	#ifdef __cforall
146	static inline forall( dtype T \| is_node(T) ) {
147	void ?{}( __queue(T) & this ) with( this ) {
148	head{ 1p };
149	tail{ &head };
150	verify(*tail == 1p);
151	}
152
153	void append( __queue(T) & this, T * val ) with( this ) {
154	verify(tail != 0p);
155	verify(*tail == 1p);
156	*tail = val;
157	tail = &get_next( *val );
158	*tail = 1p;
159	}
160
161	T * pop_head( __queue(T) & this ) {
162	verify(*this.tail == 1p);
163	T * head = this.head;
164	if( head != 1p ) {
165	this.head = get_next( *head );
166	if( get_next( *head ) == 1p ) {
167	this.tail = &this.head;
168	}
169	get_next( *head ) = 0p;
170	verify(*this.tail == 1p);
171	verify( get_next(*head) == 0p );
172	return head;
173	}
174	verify(*this.tail == 1p);
175	return 0p;
176	}
177
178	T * remove( __queue(T) & this, T ** it ) with( this ) {
179	T * val = *it;
180	verify( val );
181
182	(it) = get_next( val );
183
184	if( tail == &get_next( *val ) ) {
185	tail = it;
186	}
187
188	get_next( *val ) = 0p;
189
190	verify( (head == 1p) == (&head == tail) );
191	verify( *tail == 1p );
192	return val;
193	}
194
195	int ?!=?( const __queue(T) & this, __attribute__((unused)) zero_t zero ) {
196	return this.head != 0;
197	}
198	}
199	#endif
200
201
202	//-----------------------------------------------------------------------------
203	// Doubly Linked List
204	//-----------------------------------------------------------------------------
205	#ifdef __cforall
206	forall(dtype TYPE)
207	#define T TYPE
208	#define __getter_t * [T * & next, T * & prev] ( T & )
209	#else
210	typedef void (*__generit_c_getter_t)();
211	#define T void
212	#define __getter_t __generit_c_getter_t
213	#endif
214	struct __dllist {
215	T * head;
216	__getter_t __get;
217	};
218	#undef T
219	#undef __getter_t
220
221	#ifdef __cforall
222	#define __dllist_t(T) __dllist(T)
223	#else
224	#define __dllist_t(T) struct __dllist
225	#endif
226
227	#ifdef __cforall
228	forall(dtype T )
229	static inline [void] ?{}( __dllist(T) & this, * [T * & next, T * & prev] ( T & ) __get ) {
230	this.head{ 0p };
231	this.__get = __get;
232	}
233
234	#define next 0
235	#define prev 1
236	static inline forall(dtype T) {
237	void push_front( __dllist(T) & this, T & node ) with( this ) {
238	verify(__get);
239	if ( head ) {
240	__get( node ).next = head;
241	__get( node ).prev = __get( *head ).prev;
242	// inserted node must be consistent before it is seen
243	// prevent code movement across barrier
244	asm( "" : : : "memory" );
245	__get( *head ).prev = &node;
246	T & _prev = *__get( node ).prev;
247	__get( _prev ).next = &node;
248	} else {
249	__get( node ).next = &node;
250	__get( node ).prev = &node;
251	}
252
253	// prevent code movement across barrier
254	asm( "" : : : "memory" );
255	head = &node;
256	}
257
258	void remove( __dllist(T) & this, T & node ) with( this ) {
259	verify(__get);
260	if ( &node == head ) {
261	if ( __get( *head ).next == head ) {
262	head = 0p;
263	} else {
264	head = __get( *head ).next;
265	}
266	}
267	__get( *__get( node ).next ).prev = __get( node ).prev;
268	__get( *__get( node ).prev ).next = __get( node ).next;
269	__get( node ).next = 0p;
270	__get( node ).prev = 0p;
271	}
272
273	int ?!=?( const __dllist(T) & this, __attribute__((unused)) zero_t zero ) {
274	return this.head != 0;
275	}
276
277	void move_to_front( __dllist(T) & src, __dllist(T) & dst, T & node ) {
278	remove (src, node);
279	push_front(dst, node);
280	}
281	}
282	#undef next
283	#undef prev
284	#endif
285
286	//-----------------------------------------------------------------------------
287	// Tools
288	//-----------------------------------------------------------------------------
289	#ifdef __cforall
290
291	#endif
292
293	// Local Variables: //
294	// tab-width: 4 //
295	// End: //

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