func SetSymbol(name string, val Expression) { nameC := C.CString(name) defer C.free(unsafe.Pointer(nameC)) C.Rf_protect(val.ToSexp()) defer C.Rf_unprotect(1) C.defineVar(C.install(nameC), val.ToSexp(), C.R_GlobalEnv) }
//export ListenAndServe func ListenAndServe(addr_ C.SEXP, handler_ C.SEXP, rho_ C.SEXP) C.SEXP { if C.TYPEOF(addr_) != C.STRSXP { fmt.Printf("addr is not a string (STRXSP; instead it is: %d)! addr argument to ListenAndServe() must be a string of form 'ip:port'\n", C.TYPEOF(addr_)) return C.R_NilValue } //msglen := 0 if 0 == int(C.isFunction(handler_)) { // 0 is false C.ReportErrorToR_NoReturn(C.CString("‘handler’ must be a function")) return C.R_NilValue } if rho_ != nil && rho_ != C.R_NilValue { if 0 == int(C.isEnvironment(rho_)) { // 0 is false C.ReportErrorToR_NoReturn(C.CString("‘rho’ should be an environment")) return C.R_NilValue } } caddr := C.R_CHAR(C.STRING_ELT(addr_, 0)) addr := C.GoString(caddr) fmt.Printf("ListenAndServe listening on address '%s'...\n", addr) webSockHandler := func(w http.ResponseWriter, r *http.Request) { if r.URL.Path != "/" { http.Error(w, "Not found", 404) return } if r.Method != "GET" { http.Error(w, "Method not allowed, only GET allowed.", 405) return } c, err := upgrader.Upgrade(w, r, nil) if err != nil { fmt.Print("websocket handler upgrade error:", err) return } defer c.Close() mt, message, err := c.ReadMessage() if err != nil { fmt.Println("read error: ", err) return } // make the call, and get a response msglen := len(message) rawmsg := C.allocVector(C.RAWSXP, C.R_xlen_t(msglen)) C.Rf_protect(rawmsg) C.memcpy(unsafe.Pointer(C.RAW(rawmsg)), unsafe.Pointer(&message[0]), C.size_t(msglen)) // put msg into env that handler_ is called with. C.defineVar(C.install(C.CString("msg")), rawmsg, rho_) R_serialize_fun = C.findVar(C.install(C.CString("serialize")), C.R_GlobalEnv) // todo: callbacks to R functions here not working. don't really need them if R always acts as a client instead. // evaluate C.PrintToR(C.CString("listenAndServe: stuffed msg into env rho_.\n")) //R_fcall := C.lang3(handler_, rawmsg, C.R_NilValue) R_fcall := C.lang3(R_serialize_fun, rawmsg, C.R_NilValue) C.Rf_protect(R_fcall) C.PrintToR(C.CString("listenAndServe: got msg, just prior to eval.\n")) evalres := C.eval(R_fcall, rho_) C.Rf_protect(evalres) C.PrintToR(C.CString("listenAndServe: after eval.\n")) /* var s, t C.SEXP s = C.allocList(3) t = s C.Rf_protect(t) C.SetTypeToLANGSXP(&s) //C.SETCAR(t, R_fcall) C.SETCAR(t, handler_) t = C.CDR(t) C.SETCAR(t, rawmsg) evalres := C.eval(s, rho_) C.Rf_protect(evalres) */ C.PrintToR(C.CString("nnListenAndServe: done with eval.\n")) if C.TYPEOF(evalres) != C.RAWSXP { fmt.Printf("rats! handler result was not RAWSXP raw bytes!\n") } else { //fmt.Printf("recv: %s\n", message) err = c.WriteMessage(mt, message) if err != nil { fmt.Println("write error: ", err) } } C.Rf_unprotect(3) } // end handler func http.HandleFunc("/", webSockHandler) err := http.ListenAndServe(addr, nil) if err != nil { fmt.Println("ListenAndServe: ", err) } return C.R_NilValue }