CSY/reowolf Files · examples/bench_29/main.c · Centrum Wiskunde & Informatica (CWI)

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Preparatory work for union literals

Contains horrible parsing hacks that transmute function calls and
enum literals to union literals if appropriate. Pending the
implementation of the tokenizer the AST can be constructed more
neatly.

#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;
    memcpy(x.ipv4, ipv4, sizeof(uint8_t)*4);
    return x;
}
int main(int argc, char** argv) {
    int i, rounds;
    char optimized = argv[1][0];
    char sender = argv[2][0];
    rounds = atoi(argv[3]);
    uint8_t ipv4[4] = { atoi(argv[4]), atoi(argv[5]), atoi(argv[6]), atoi(argv[7]) };
    size_t msg_len = atoi(argv[8]);

    printf("optimized %c, sender %c, rounds %d, addr %d.%d.%d.%d, msg_len %d\n",
        optimized, sender, rounds, ipv4[0], ipv4[1], ipv4[2], ipv4[3], msg_len);

    unsigned char pdl[] = "\
    primitive filter(in i, out o) {\
        while(true) synchronous() {\
            msg m = get(i);\
            if(m[0] == 0) put(o, m);\
        }\
    }\
    ";
    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, sender=='y'?1:0);
    PortId ports[3]; // orientation: 0->1->2 (subsets may be initialized) sender puts on 0. !sender gets on 2. 
    char ident[] = "filter";
    FfiSocketAddr addr = addr_new(ipv4, 7000);
    if(sender=='y') {
        Polarity p = Polarity_Putter;
        EndpointPolarity ep = EndpointPolarity_Active;
        if(optimized=='y') {
            // 3 ports: (native)0-->1(filter)2-->(NETWORK)
            connector_add_port_pair(c, &ports[0], &ports[1]);
            connector_add_net_port(c, &ports[2], addr, p, ep);
            printf("Error str `%s`\n", reowolf_error_peek(NULL));
            connector_add_component(c, ident, sizeof(ident)-1, ports+1, 2);
            printf("Error str `%s`\n", reowolf_error_peek(NULL));
        } else {
            // 1 port
            connector_add_net_port(c, &ports[0], addr, p, ep);
            printf("Error str `%s`\n", reowolf_error_peek(NULL));
        }
    } else {
        Polarity p = Polarity_Getter;
        EndpointPolarity ep = EndpointPolarity_Passive;
        if(optimized=='y') {
            // 1 port
            connector_add_net_port(c, &ports[2], addr, p, ep);
            printf("Error str `%s`\n", reowolf_error_peek(NULL));
        } else {
            // 3 ports: (NETWORK)-->0(filter)1-->2(native)
            connector_add_net_port(c, &ports[0], addr, p, ep);
            printf("Error str `%s`\n", reowolf_error_peek(NULL));
            connector_add_port_pair(c, &ports[1], &ports[2]);
            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));

    char * msg = malloc(msg_len);
    memset(msg, 42, msg_len);
    
    clock_t begin = clock();
    for (i=0; i<rounds; i++) {
        if(sender=='y') {
            msg[0] = (char) i%2;
            connector_put_bytes(c, ports[0], msg, msg_len);
            // always put
        } else {
            // no-get option
            connector_next_batch(c);
            // get option
            connector_get(c, ports[2]);
        }
        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;
}