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Location: CSY/reowolf/examples/bench_26/main.c - annotation
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Add docs for implementing infinite types in a value based language.
Since we are a value based language and do not have the concept of
pointers, then if we want to lay out the memory of datatypes we run
into a problem when the types represent recursive datastructures:
these are infinite in size. So we have an algorithm for turning
some types into pointer-like things, such that we can lay everything
out in memory.
Since we are a value based language and do not have the concept of
pointers, then if we want to lay out the memory of datatypes we run
into a problem when the types represent recursive datastructures:
these are infinite in size. So we have an algorithm for turning
some types into pointer-like things, such that we can lay everything
out in memory.
528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f 528578bffb3f | #include <time.h>
#include "../../reowolf.h"
#include "../utility.c"
FfiSocketAddr addr_new(const uint8_t ipv4[4], uint16_t port) {
FfiSocketAddr x;
x.port = port;
int i;
for(i=0; i<4; i++) {
x.ipv4[i] = ipv4[i];
}
return x;
}
int main(int argc, char** argv) {
int i, rounds;
char leader;
uint8_t ipv4[4] = { atoi(argv[1]), atoi(argv[2]), atoi(argv[3]), atoi(argv[4]) };
leader = argv[5][0];
rounds = atoi(argv[6]);
printf("leader %c, rounds %d, peer at %d.%d.%d.%d\n",
leader, rounds, ipv4[0], ipv4[1], ipv4[2], ipv4[3]);
unsigned char pdl[] = "";
Arc_ProtocolDescription * pd = protocol_description_parse(pdl, sizeof(pdl)-1);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
Connector * c = connector_new_with_id(pd, leader=='y'?1:0);
PortId ports[2];
if(leader=='y') {
EndpointPolarity ep = EndpointPolarity_Active;
connector_add_net_port(c, &ports[0], addr_new(ipv4, 7005), Polarity_Putter, ep);
connector_add_net_port(c, &ports[1], addr_new(ipv4, 7006), Polarity_Getter, ep);
} else {
EndpointPolarity ep = EndpointPolarity_Passive;
connector_add_net_port(c, &ports[0], addr_new(ipv4, 7005), Polarity_Getter, ep);
connector_add_net_port(c, &ports[1], addr_new(ipv4, 7006), Polarity_Putter, ep);
char ident[] = "sync";
connector_add_component(c, ident, sizeof(ident)-1, ports, 2);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
}
connector_connect(c, -1);
printf("Error str `%s`\n", reowolf_error_peek(NULL));
size_t msg_len = 1000;
char * msg = malloc(msg_len);
memset(msg, 42, msg_len);
clock_t begin = clock();
for (i=0; i<rounds; i++) {
if(leader=='y') {
connector_put_bytes(c, ports[0], msg, msg_len);
connector_get(c, ports[1]);
}
connector_sync(c, -1);
}
clock_t end = clock();
double time_spent = (double)(end - begin) / CLOCKS_PER_SEC;
printf("Time Spent: %f\n", time_spent);
free(msg);
return 0;
}
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