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bounded_buffer.cfa @ 66286aa

Last change on this file since 66286aa was c26bea2a, checked in by Peter A. Buhr <pabuhr@…>, 18 months ago
first attempt at renaming directory tests/concurrent to tests/concurrency to harmonize with other concurrency directory names
Property mode set to `100644`
File size: 5.1 KB

Rev	Line
[20be782]	1	#include <stdlib.h> // prototype: rand
	2	#include <fstream.hfa>
	3	#include <thread.hfa>
	4	#include <pthread.h>
	5	#include <errno.h>
[428adbc]	6	// tested pthread mutex related routines, pthread cond related routines
	7	// tested pthread_create/join
	8
[20be782]	9	enum { BufferSize = 50 };
	10
	11	volatile int producer_val_total;
	12	volatile int consumer_val_total;
	13
	14	pthread_mutex_t producer_cnt_lock, consumer_cnt_lock;
	15
	16
	17	forall( T ){
	18	struct Buffer
	19	{
	20	int front, back, count;
	21	T elements[BufferSize];
	22	pthread_mutex_t _mutex;
	23	pthread_cond_t Full, Empty; // waiting consumers & producers
	24	};
	25
	26	void ?{}( Buffer(T) & buffer ) with( buffer ) {
	27	[front, back, count] = 0;
	28	pthread_mutex_init(&_mutex, NULL);
	29	pthread_cond_init(&Full, NULL);
	30	pthread_cond_init(&Empty, NULL);
	31	}
	32
	33	void ^?{}( Buffer(T) & buffer ) with( buffer ){
	34	pthread_mutex_destroy(&_mutex);
	35	pthread_cond_destroy(&Full);
	36	pthread_cond_destroy(&Empty);
	37	}
	38
	39	int query( Buffer(T) & buffer ) { return buffer.count; } // read-only, no mutual exclusion
	40
	41	void insert( Buffer(T) & buffer, T elem ) with(buffer) {
	42	pthread_mutex_lock(&_mutex);
	43	while ( count == 20 ) pthread_cond_wait( &Empty, &_mutex ); // block producer
	44	elements[back] = elem;
	45	back = ( back + 1 ) % 20;
	46	count += 1;
	47	pthread_cond_signal( &Full ); // unblock consumer
	48	pthread_mutex_unlock(&_mutex);
	49	}
	50
	51	T remove(Buffer(T) & buffer) with(buffer) {
	52	pthread_mutex_lock(&_mutex);
	53	while ( count == 0 ) pthread_cond_wait( &Full, &_mutex ); // block consumer
	54	T elem = elements[front];
	55	front = ( front + 1 ) % 20;
	56	count -= 1;
	57	pthread_cond_signal( &Empty ); // unblock producer
	58	pthread_mutex_unlock(&_mutex);
	59	return elem;
	60	}
	61
	62	}
	63
	64	void producer( void arg ) {
[c63f470]	65	Buffer(int) &buf = (Buffer(int))arg;
	66	const int NoOfItems = prng(*active_thread(), 40);
[20be782]	67	int item;
	68	for ( int i = 1; i <= NoOfItems; i += 1 ) { // produce a bunch of items
[c63f470]	69	item = prng(*active_thread(), 1, 101); // produce a random number
[20be782]	70	//sout \| "Producer:" \| pthread_self() \| " value:" \| item;
	71	insert( buf,item ); // insert element into queue
	72	pthread_mutex_lock(&producer_cnt_lock);
	73	producer_val_total += item;
	74	pthread_mutex_unlock(&producer_cnt_lock);
	75	} // for
	76	//sout \| "Producer:" \| pthread_self() \| " is finished";
	77	return NULL;
	78	} // producer
	79
	80	void consumer( void arg ) {
	81	Buffer(int) &buf = (Buffer(int) )arg;
	82	int item;
	83	for ( ;; ) { // consume until a negative element appears
	84	item = remove(buf); // remove from front of queue
	85	//sout \| "Consumer:" \| pthread_self() \| " value:" \| item;
	86	if ( item == -1 ) break;
	87	pthread_mutex_lock(&consumer_cnt_lock);
	88	consumer_val_total += item;
	89	pthread_mutex_unlock(&consumer_cnt_lock);
	90	} // for
	91	//sout \| "Consumer:" \| pthread_self() \| " is finished";
	92	return NULL;
	93	} // consumer
	94
	95	int main() {
	96	const int NoOfCons = 20, NoOfProds = 30;
	97	Buffer(int) buf; // create a buffer monitor
	98	pthread_t cons[NoOfCons]; // pointer to an array of consumers
	99	pthread_t prods[NoOfProds]; // pointer to an array of producers
	100	pthread_mutex_init(&producer_cnt_lock, NULL);
	101	pthread_mutex_init(&consumer_cnt_lock, NULL);
	102	// parallelism
[c63f470]	103	set_seed( 1003 );
[20be782]	104
	105	processor p[5];
	106	{
	107	// create/join and mutex/condition test
	108	//sout \| "create/join and mutex/condition test";
	109	for ( int i = 0; i < NoOfCons; i += 1 ) { // create consumers
	110	if ( pthread_create( &cons[i], NULL, consumer, (void*)&buf ) != 0 ) {
	111	sout \| "create thread failure, errno:" \| errno;
	112	exit( EXIT_FAILURE );
	113	} // if
	114	} // for
	115	for ( int i = 0; i < NoOfProds; i += 1 ) { // create producers
	116	if ( pthread_create( &prods[i], NULL, producer, (void*)&buf ) != 0 ) {
	117	sout \| "create thread failure";
	118	exit( EXIT_FAILURE );
	119	} // if
	120	} // for
	121
	122	void *result;
	123	for ( int i = 0; i < NoOfProds; i += 1 ) { // wait for producers to end
	124	if ( pthread_join( prods[i], &result ) != 0 ) {
	125	sout \| " producers join thread failure";
	126	exit( EXIT_FAILURE );
	127	} // if
	128	if ( (uint64_t)result != 0 ) {
	129	sout \| "producers" \| prods[i] \|" bad return value " \| result;
	130	exit( EXIT_FAILURE );
	131	} // if
	132	//sout \| "join prods[" \| i \| "]:" \| prods[i] \| " result:" \| result;
	133	} // for
	134
	135	for ( int i = 0; i < NoOfCons; i += 1 ) { // terminate each consumer
	136	insert(buf, -1 );
	137	} // for
	138
	139	for ( int i = 0; i < NoOfCons; i += 1 ) { // wait for consumer to end
	140	if ( pthread_join( cons[i], &result ) != 0 ) {
	141	sout\| "consumers join thread failure" ;
	142	exit( EXIT_FAILURE );
	143	} // if
	144	if ( (uint64_t)result != 0 ) {
	145	sout\| "consumers bad return value" \| result;
	146	exit( EXIT_FAILURE );
	147	} // if
	148	} // for
	149	sout \| "producer total value is " \| producer_val_total;
	150	sout \| "consumer total value is " \| consumer_val_total;
	151	}
	152
	153
	154
	155
	156	}

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