So I use re-graph version 0.1.11 and I try fetching data from the endpoint. After fetching data, I checked network tab in the browser and I found the expected data after that it should activate my callback function, but it doesn't seem to work (but sometimes it works and after refreshing the page a few times it doesn't work again). Here is the code.
;; how I init re-graph
(rf/dispatch [::re-graph/init
::conf/graphql-client-name
{:ws-url url
:http-url url
:ws-reconnect-timeout 500
:resume-subscriptions? true}])
(re-frame.core/reg-event-fx
::fetch-expected-data
(fn [cofx event]
(let [app-db (:db cofx)
some-params (-> event second (cljs.core/js->clj :keywordize-keys true))
token (-> app-db (lens/get-in (auth-db/lens-token :group-level-x)))]
(re-frame.core/dispatch
[:re-graph.core/query
::conf/graphql-client-name
"query findExpectedData($query: FetchExpectedDataInput!, $token: String!) {
findExpectedData(query: $query, token: $token){
value1
value2
...
}
}"
{:query some-params
:token token}
;; this is where the problem occurs
;; even though i found the data in the network tab, but
;; this callback doesn't seem to work (sometimes it works sometimes it doens't)
[::fetched-data-completed]]))))
(re-frame.core/reg-event-fx
::fetched-data-completed
(fn [cofx [_ {:keys [data errors] :as payload}]]
(let [app-db (:db cofx)
error-message (-> errors :errors first :message)]
(if (or (nil? errors) (empty? errors))
(do (bla bla when success))
(pr error-message)))))
I'm stuck with this problem for a few months. maybe because I fetch a lot of data at the same time? or could be something else anyone knows?. By the way the actual code I use defmacro, but it works the same way as the above code.
So I managed to find the answer to my own question. It seems like app-db has not been initialized properly so I fixed that problem and everything works fine. hope it helps someone who struggle with this problem.
I'm attempting to use macros to generate a series of similar Om components (e.g. a modal element which contains common boilerplate and a dynamic "body").
I've got the solution below mostly working. The one exception is accessing the appropriate owner in the form's on-submit event handler.
;; macros.clj
(defmacro build-modal
([disp-name body]
`(fn [_# owner#]
(reify
om.core/IRender
(~'render [_#]
(dom/div {:class "login-view-modal"}
(dom/div {:class "login-view-modal-backsplash"})
(dom/div {:class "login-view-modal-content"}
~#body))))) nil))
;; ui.cljs
(defn login-view-modal []
(bs-macros/build-modal
"login-modal"
'(dom/form {:on-submit (fn [event]
(.preventDefault event)
(let [username (get-value owner "username")
password (get-value owner "password")
data {:email_address username
:password password}]
(handle-login-view-modal-form-submit data)))}
;; elided for brevity
(dom/div
(dom/button "LOG IN")))))
(defcomponent home-page-view [app owner]
(init-state [_] {:text ""})
(render-state [this state]
;; elided for brevity
(dom/div (login-view-modal))))
The modal is rendered as expected, however when submitting the form I'm presented with the error: Uncaught TypeError: Cannot read property 'getDOMNode' of undefined, which seems to be because owner is not in scope. (Note, this element and its event handler functions as expected when constructed in full - i.e. without using a macro.)
How do I make the appropriate owner available to the body of the macro?
You need variable capture for this to work. Instead of gen-syming via owner# which will generate a unique symbol, just inline ~'owner wherever you want to refer to it.
I'm experiencing a strange problem with Java interop. I wrote a small specialized wrapper around the BDB JE API. When I'm in the repl (cider-repl) everything works fine: I can open the database, add entries, etc. But if I call the add-record function from another function in my app I get an NPE,
NullPointerException clojure.lang.Reflector.invokeInstanceMethod (Reflector.java:26)
I'm starting to think I'm losing my mind. This opens the database:
(defn opendb [envpath dbname]
(let [envconf (.setAllowCreate (EnvironmentConfig.) true)
env (Environment. (ensure-directory envpath) envconf)
dbconf (-> (DatabaseConfig.) (.setAllowCreate true) (.setDeferredWrite true))
database (.openDatabase env nil dbname dbconf)]
{:environment env :database database}))
Here is add-record:
(defn add-record [dbm k v]
(let [key (DatabaseEntry. (.getBytes k "UTF-8"))
value (DatabaseEntry. (.getBytes v "UTF-8"))]
(.put (:database dbm) nil key value)))
There really isn't anything special going on here. The usage where this yields the NPE is similar to
(let [cache (bdb/opendb "local-cache" "subject-map")]
;; do stuff
(doseq [node (function "that returns a sequence of maps")]
(bdb/add-record cache (:foo node) (:bar node)))
(bdb/closedb cache))
I've added prnS inside bb/add-record and all the values are non-nil, yet I still get the NPE.
Something subtle is going on here, and it's eluding me. Anyone have an idea?
Thanks inadvance.
EDIT: here's the full stack trace:
Exception in thread "main" java.lang.NullPointerException
at clojure.lang.Reflector.invokeInstanceMethod(Reflector.java:26)
at sterling.bdbje$add_record.invoke(bdbje.clj:33)
at sterling.loaders$load_subject_batch.invoke(loaders.clj:214)
at sterling.loaders$load_subject_headings.invoke(loaders.clj:224)
at sterling.loaders$_main.doInvoke(loaders.clj:257)
at clojure.lang.RestFn.applyTo(RestFn.java:137)
at sterling.loaders.main(Unknown Source)
As I said, this makes no sense to me, but is completely reproducible.
I'm writing some middleware for Ring and I'm really confused as to why I have to reverse the order of the middleware.
I've found this blog post but it doesn't explain why I have to reverse it.
Here's a quick excerpt from the blog post:
(def app
(wrap-keyword-params (wrap-params my-handler)))
The response would be:
{; Trimmed for brevity
:params {"my_param" "54"}}
Note that the wrap keyword params didn't get called on it because the params hash didn't exist yet. But when you reverse the order of the middleware like so:
(def app
(wrap-params (wrap-keyword-params my-handler)))
{; Trimmed for brevity
:params {:my_param "54"}}
It works.
Could somebody please explain why you have to reverse the order of the middleware?
It helps to visualize what middleware actually is.
(defn middleware [handler]
(fn [request]
;; ...
;; Do something to the request before sending it down the chain.
;; ...
(let [response (handler request)]
;; ...
;; Do something to the response that's coming back up the chain.
;; ...
response)))
That right there was pretty much the a-ha moment for me.
What's confusing at first glance is that middleware isn't applied to the request, which is what you're thinking of.
Recall that a Ring app is just a function that takes a request and returns a response (which means it's a handler):
((fn [request] {:status 200, ...}) request) ;=> response
Let's zoom out a little bit. We get another handler:
((GET "/" [] "Hello") request) ;=> response
Let's zoom out a little more. We find the my-routes handler:
(my-routes request) ;=> response
Well, what if you wanted to do something before sending the request to the my-routes handler? You can wrap it with another handler.
((fn [req] (println "Request came in!") (my-routes req)) request) ;=> response
That's a little hard to read, so let's break out for clarity. We can define a function that returns that handler. Middleware are functions that take a handler and wrap it another handler. It doesn't return a response. It returns a handler that can return a response.
(defn println-middleware [wrapped-func]
(fn [req]
(println "Request came in!")
(wrapped-func req)))
((println-middleware my-route) request) ;=> response
And if we need to do something before even println-middleware gets the request, then we can wrap it again:
((outer-middleware (println-middleware my-routes)) request) ;=> response
The key is that my-routes, just like your my-handler, is the only named function that actually takes the request as an argument.
One final demonstration:
(handler3 (handler2 (handler1 request))) ;=> response
((middleware1 (middleware2 (middleware3 handler1))) request) ;=> response
I write so much because I can sympathize. But scroll back up to my first middleware example and hopefully it makes more sense.
The ring middleware is a series of functions which when stacked up return a handler function.
The section of the article that answers your question:
In case of Ring wrappers, typically we have “before” decorators that
perform some preparations before calling the “real” business function.
Since they are higher order functions and not direct function calls,
they are applied in reversed order. If one depends on the other, the
dependent one needs to be on the “inside”.
Here is a contrived example:
(let [post-wrap (fn [handler]
(fn [request]
(str (handler request) ", post-wrapped")))
pre-wrap (fn [handler]
(fn [request]
(handler (str request ", pre-wrapped"))))
around (fn [handler]
(fn [request]
(str (handler (str request ", pre-around")) ", post-around")))
handler (-> (pre-wrap identity)
post-wrap
around)]
(println (handler "(this was the input)")))
This prints and returns:
(this was the input), pre-around, pre-wrapped, post-wrapped, post-around
nil
As you may know the ring app is actually just a function that receives a request map and returns a response map.
In the first case the order in which the functions are applied is this:
request -> [wrap-keyword-params -> wrap-params -> my-handler] -> response
wrap-keyword-params looks for the key :params in the request but it's not there since wrap-params is the one who adds that key based on the "urlencoded parameters from the query string and form body".
When you invert the order of those two:
request -> [wrap-params -> wrap-keyword-params -> my-handler] -> response
You get the desired result since once the request gets to wrap-keyword-params, wrap-params has already added the corresponding keys.
The answer by danneu is nice, but it only really "clicked" for me after I visualized it in code to see how the chaining of middleware really looks like without the "->" threading macro magic (here's a link if you're not familiar with it). This is what I ended up with:
Let's say you have a request handler that looks like this:
(def amazing-handler
(-> #'some-amazing-fn
some-mware
another-mware
one-more-mware))
^^ The above handler, written without using a threading macro, would look like this (and I'm extending the indentation on purpose, so it is visually easier to understand which request belongs to which handler):
(def amazing-handler
(one-more-mware
(another-mware
((some-mware #'some-amazing-fn) request-from-another-mware)
request-from-one-more-mware)
original-request))
^^ The above is a style of code that requires us to read it from inside out (which sometimes is hard to follow), the threading macros (-> and ->>) allow us to read code in a natural left-to-right way, but it requires understanding on our part of how exactly it allows us to compose code in this "natural" way behind the scene.
Here's a more complete example:
;; For reference: this is how the end result of the entire "threading" looks like:
;; (((#'some-amazing-fn req-from-up-passed-down) req-from-up-passed-down) original-request)
(defn some-amazing-fn [req] ;; this "req" is the one that will get passed to this function from "some-mware"
(println "this is the final destination of the req", req)
(ring.util.http-response/ok {:body "some funny response"}))
(defn one-more-mware [some-argument] ;; the "some-argument" in this case is (another-mware (some-mware #'some-amazing-fn))
(fn [req] ;; the "req" here is the original request generated by the ring adaptors and passed to this chain of middleware
(println "|--> from fn inside one-more-mware")
(some-argument req))) ;; here we provide the another-mware with the request that it will then pass down the chain of middleware, you can imagine that chain, at this point in time, to look like this:
;; ((another-mware (some-mware #'some-amazing-fn)) req)
(defn another-mware [dunno-something] ;; the "dunno-something" in this case is (some-mware #'some-amazing-fn)
(fn [req] ;; the "req" here is passed from one-more-mware function
(println "|--> from fn inside another-mware")
(dunno-something req))) ;; here we are passing the "req" down the line to the (some-mware #'some-amazing-fn), so the entire thing behind the scenes, at this point in time, looks like this:
;; ((some-mware #'some-amazing-fn) req)
(defn some-mware [some-handler] ;; the "some-handler" arg here refers to #'some-amazing-fn
(fn [req] ;; the "req" here is passed to this function from another-mware function
(println "|--> from fn inside some-mware")
(some-handler req))) ;; here is where we are passing a "req" argument to the #'some-amazing-fn, so behind the scenes it could be thought of as looking like this:
;; (#'some-amazing-fn req)
(def amazing-handler
(-> #'some-amazing-fn
some-mware
another-mware
one-more-mware))
;; |--> from fn inside one-more-mware
;; |--> from fn inside another-mware
;; |--> from fn inside some-mware
;; |--> this is the final destination of the req {.. .. ..}
I'm using an AngularJS resource to basically $.ajax() some form data.
Post.put({user:$scope.getLoggedInUser(), action:"new"},{body:$scope.postBody, "public":$scope.postPublic}, function(post) {
On the form is a checkbox named "public."
I am using this function to merge the form data with the params from the URL:
(defn get-params [request]
(merge (:params request) (parse-string (slurp (request :body)) true)))
when I println from my route's handler like so I get a nice true when the checkbox is checked:
(println (:public (get-params request)))
However, when I pass the parameter (i.e. not the println) to another function in my controller that talks to the database, I do another println at the beginning of that function and get nil instead.
I've tried passing it as
(read-string x)
(boolean (Boolean/valueOf x))
(Boolean/valueOf x)
to no avail.
One thing that might be causing it (but I don't know why) is that I'm wrapping the request through authentication like this:
(auth? request #(create x y z))
where the (create) function creates a record in the database.
I can't get it to be true no matter what I've tried.
EDIT: more complete code
CONTROLLER
(defn auth? [request callback-true & [callback-false]]
(println (callback-true))
(let [login-response (auth/login request)]
(if (and (not (string? login-response))
login-response)
(callback-true)
(if callback-false
(callback-false)
(json-response (str "{\"auth\":" login-response "}"), 401)))))
(defn create [user logged-in-user body public?]
(if (= logged-in-user user)
(json-response (post-view/single-post (post/create user body public?)))
(json-response "{\"auth\":\"can't create post under different logged in user\"}" 401)))
(defroutes routes
....
(PUT "/api/:user/new" request
(println request)
(auth? request
#(create (:user (request :params))
(:user (request :session))
(:body (get-params request))
(:public (get-params request)))))
....
)
MODEL
(defn create [username body public?]
(println public?)
(when-not (and
(str/blank? body)
(str/blank? username))
(let [user-id (:id (get-id-from-username username))
new-post-id
(:id
(sql/with-connection db
(sql/insert-values :post
[:usr_id :body :public] [user-id body (Boolean/valueOf public?)])))]
(by-id new-post-id))))
Don't call get-params twice. (request :body) returns a stream, which can't be read twice.