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Location: CSY/reowolf/examples/bench_22/main.c - annotation
3bb9f89521a1
2.6 KiB
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Prepare for binding expression inference
ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b ef80a75d0e6b | #include <time.h>
#include "../../reowolf.h"
#include "../utility.c"
int main(int argc, char** argv) {
// same as bench 21 but with parametric message length
int i, j, cid, msg_loops, par_msgs, msg_len;
char is_leader;
is_leader = argv[1][0];
msg_loops = atoi(argv[2]);
par_msgs = atoi(argv[3]);
msg_len = atoi(argv[8]);
// argv[4..8] encodes peer IP
printf("is_leader %c, msg_loops %d, par_msgs %d, msg_len %d\n", is_leader, msg_loops, par_msgs, msg_len);
cid = is_leader=='y'; // cid := { leader:1, follower:0 }
unsigned char pdl[] = "";
Arc_ProtocolDescription * pd = protocol_description_parse(pdl, sizeof(pdl)-1);
Connector * c = connector_new_with_id(pd, cid);
PortId native_ports[par_msgs];
FfiSocketAddr peer_addr = {
{
atoi(argv[4]),
atoi(argv[5]),
atoi(argv[6]),
atoi(argv[7])
}, 0/*dummy value*/};
int port = 7000;
// for each parallel message
for(i=0; i<par_msgs; i++) {
if(is_leader == 'y') {
peer_addr.port = port++;
connector_add_net_port(
c, &native_ports[i], peer_addr, Polarity_Putter, EndpointPolarity_Active);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
}
for(j=0; j<msg_loops; j++) {
PortId loop_getter, loop_putter;
// create {putter, getter} port pair
connector_add_net_port(
c, &loop_getter,
(FfiSocketAddr) {{0,0,0,0}, port++},
Polarity_Getter, EndpointPolarity_Passive);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
peer_addr.port = port++;
connector_add_net_port(
c, &loop_putter, peer_addr, Polarity_Putter, EndpointPolarity_Active);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
connector_add_component(c, "forward", 7,
(PortId[]){loop_getter, loop_putter}, 2);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
}
if(is_leader != 'y') {
connector_add_net_port(
c, &native_ports[i],
(FfiSocketAddr) {{0,0,0,0}, port++},
Polarity_Getter, EndpointPolarity_Passive);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
}
}
printf("Added all ports!\n");
connector_connect(c, -1);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
printf("Connect OK!\n");
char * msg = malloc(msg_len);
memset(msg, 42, msg_len);
clock_t begin = clock();
for(i=0; i<100000; i++) {
if(is_leader == 'y') {
for(j=0; j<par_msgs; j++) {
connector_put_bytes(c, native_ports[j], msg, msg_len);
}
} else {
for(j=0; j<par_msgs; j++) {
connector_get(c, native_ports[j]);
}
}
connector_sync(c, -1);
}
clock_t end = clock();
double time_spent = (double)(end - begin) / CLOCKS_PER_SEC;
printf("Time taken: %f\n", time_spent);
free(msg);
return 0;
}
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