#include #include #include #include #include #include #include #include pthread_t pt; Display *d; Window w; XEvent e; int sockfd; struct sockaddr_in servaddr; int wid, hei; uint8_t mesg[NUM_LIN_LEDS*3+3]; #define LEDS_PER_ROW 15 #define LED_SIZE 15 void thread_function( void * tf ) { int n; struct sockaddr_in cliaddr; socklen_t len; XEvent exppp; while(1) { len = sizeof(cliaddr); n = recvfrom(sockfd,mesg,sizeof(mesg),0,(struct sockaddr *)&cliaddr,&len); //XSendEventXClearArea( d, w, 0, 0, 1, 1, 1 ); XLockDisplay( d ); memset(&exppp, 0, sizeof(exppp)); exppp.type = Expose; exppp.xexpose.window = w; XSendEvent(d,w,False,ExposureMask,&exppp); XFlush( d ); XUnlockDisplay( d ); } } int main(void) { int n; sockfd=socket(AF_INET,SOCK_DGRAM,0); bzero(&servaddr,sizeof(servaddr)); servaddr.sin_family = AF_INET; servaddr.sin_addr.s_addr=htonl(INADDR_ANY); servaddr.sin_port=htons(7777); if( bind(sockfd,(struct sockaddr *)&servaddr,sizeof(servaddr)) ) { fprintf( stderr, "Error binding.\n" ); } memset( mesg, 0, sizeof( mesg ) ); pthread_create (&pt, NULL, (void *) &thread_function, (void *)0); int s; wid = LEDS_PER_ROW; hei = NUM_LIN_LEDS/LEDS_PER_ROW + ( (NUM_LIN_LEDS%LEDS_PER_ROW)?1:0 ); XInitThreads(); d = XOpenDisplay(NULL); if (d == NULL) { fprintf(stderr, "Cannot open display\n"); exit(1); } s = DefaultScreen(d); w = XCreateSimpleWindow(d, RootWindow(d, s), 10, 10, wid*LED_SIZE, hei*LED_SIZE, 1, BlackPixel(d, s), WhitePixel(d, s)); XSetStandardProperties( d, w, "LED Simulaor", "LED Simulator", None, NULL, 0, NULL ); XSelectInput(d, w, ExposureMask | KeyPressMask); XMapWindow(d, w); GC dgc = XCreateGC(d, w, 0, 0); while (1) { XNextEvent(d, &e); if (e.type == Expose) { for( n = 0; n < NUM_LIN_LEDS; n++ ) { unsigned long color = ( mesg[n*3+3] << 8 ) | ( mesg[n*3+4] << 16 ) | (mesg[n*3+5] << 0); XSetForeground(d, dgc, color); int x = n % wid; int y = n / wid; XFillRectangle(d, w, dgc, x*LED_SIZE, y*LED_SIZE, LED_SIZE, LED_SIZE); } } // if (e.type == ClientMessage ) // break; } XCloseDisplay(d); return 0; }