contains mranderson048.re-frame.v0v10v6.re-frame supplied, standard interceptors
contains mranderson048.re-frame.v0v10v6.re-frame supplied, standard interceptors
(after f)
returns an interceptor which runs a given function f
in the :after
position, presumably for side effects.
f
is called with two arguments: the :effects
value for :db
(or the coeffect
value of db if no db effect is returned) and the event.
Its return value is ignored, so f
can only side-effect.
Examples use can be seen in the /examples/todomvc:
f
runs schema validation (reporting any errors found).f
writes to localstorage.returns an interceptor which runs a given function `f` in the `:after` position, presumably for side effects. `f` is called with two arguments: the `:effects` value for `:db` (or the `coeffect` value of db if no db effect is returned) and the event. Its return value is ignored, so `f` can only side-effect. Examples use can be seen in the /examples/todomvc: - `f` runs schema validation (reporting any errors found). - `f` writes to localstorage.
(ctx-handler->interceptor handler-fn)
Returns an interceptor which wraps the kind of event handler given to reg-event-ctx
.
These advanced handlers take one argument: context
and they return a modified context
.
Example:
(fn [context]
(enqueue context [more interceptors]))
Returns an interceptor which wraps the kind of event handler given to `reg-event-ctx`. These advanced handlers take one argument: `context` and they return a modified `context`. Example: (fn [context] (enqueue context [more interceptors]))
(db-handler->interceptor handler-fn)
Returns an interceptor which wraps the kind of event handler given to reg-event-db
.
These handlers take two arguments; db
and event
, and they return db
.
(fn [db event] ....)
So, the interceptor wraps the given handler:
:coeffects
keys: db and event:effects
Returns an interceptor which wraps the kind of event handler given to `reg-event-db`. These handlers take two arguments; `db` and `event`, and they return `db`. (fn [db event] ....) So, the interceptor wraps the given handler: 1. extracts two `:coeffects` keys: db and event 2. calls handler-fn 3. stores the db result back into context's `:effects`
An interceptor which logs/instruments an event handler's actions to
js/console.debug
. See examples/todomvc/src/events.cljs for use.
Output includes:
clojure.data/diff
of db, before vs after, which shows
the changes caused by the event handler. You will absolutely have
to understand https://clojuredocs.org/clojure.data/diff to
understand the output.You'd typically include this interceptor after (to the right of) any path interceptor.
Warning: calling clojure.data/diff on large, complex data structures can be slow. So, you won't want this interceptor present in production code. So condition it out like this :
(mranderson048.re-frame.v0v10v6.re-frame.core/reg-event-db :evt-id [(when ^boolean goog.DEBUG mranderson048.re-frame.v0v10v6.re-frame.core/debug)] ;; <-- conditional (fn [db v] ...))
To make this code fragment work, you'll also have to set goog.DEBUG to
false in your production builds - look in project.clj
of /examples/todomvc.
An interceptor which logs/instruments an event handler's actions to `js/console.debug`. See examples/todomvc/src/events.cljs for use. Output includes: 1. the event vector 2. a `clojure.data/diff` of db, before vs after, which shows the changes caused by the event handler. You will absolutely have to understand https://clojuredocs.org/clojure.data/diff to understand the output. You'd typically include this interceptor after (to the right of) any path interceptor. Warning: calling clojure.data/diff on large, complex data structures can be slow. So, you won't want this interceptor present in production code. So condition it out like this : (mranderson048.re-frame.v0v10v6.re-frame.core/reg-event-db :evt-id [(when ^boolean goog.DEBUG mranderson048.re-frame.v0v10v6.re-frame.core/debug)] ;; <-- conditional (fn [db v] ...)) To make this code fragment work, you'll also have to set goog.DEBUG to false in your production builds - look in `project.clj` of /examples/todomvc.
(enrich f)
Interceptor factory which runs the given function f
in the after handler
position. f
is called with two arguments: db
and v
, and is expected to
return a modified db
.
Unlike the after
interceptor which is only about side effects, enrich
expects f
to process and alter the given db
coeffect in some useful way,
contributing to the derived data, flowing vibe.
Imagine that todomvc needed to do duplicate detection - if any two todos had the same text, then highlight their background, and report them via a warning at the bottom of the panel.
Almost any user action (edit text, add new todo, remove a todo) requires a complete reassessment of duplication errors and warnings. Eg: that edit just made might have introduced a new duplicate, or removed one. Same with any todo removal. So we need to re-calculate warnings after any CRUD events associated with the todos list.
Unless we are careful, we might end up coding subtly different checks for each kind of CRUD operation. The duplicates check made after 'delete todo' event might be subtly different to that done after an editing operation. Nice and efficient, but fiddly. A bug generator approach.
So, instead, we create an f
which recalculates ALL warnings from scratch
every time there is ANY change. It will inspect all the todos, and
reset ALL FLAGS every time (overwriting what was there previously)
and fully recalculate the list of duplicates (displayed at the bottom?).
https://twitter.com/nathanmarz/status/879722740776939520
By applying f
in an :enrich
interceptor, after every CRUD event,
we keep the handlers simple and yet we ensure this important step
(of getting warnings right) is not missed on any change.
We can test f
easily - it is a pure function - independently of
any CRUD operation.
This brings huge simplicity at the expense of some re-computation each time. This may be a very satisfactory trade-off in many cases.
Interceptor factory which runs the given function `f` in the `after handler` position. `f` is called with two arguments: `db` and `v`, and is expected to return a modified `db`. Unlike the `after` interceptor which is only about side effects, `enrich` expects `f` to process and alter the given `db` coeffect in some useful way, contributing to the derived data, flowing vibe. Example Use: ------------ Imagine that todomvc needed to do duplicate detection - if any two todos had the same text, then highlight their background, and report them via a warning at the bottom of the panel. Almost any user action (edit text, add new todo, remove a todo) requires a complete reassessment of duplication errors and warnings. Eg: that edit just made might have introduced a new duplicate, or removed one. Same with any todo removal. So we need to re-calculate warnings after any CRUD events associated with the todos list. Unless we are careful, we might end up coding subtly different checks for each kind of CRUD operation. The duplicates check made after 'delete todo' event might be subtly different to that done after an editing operation. Nice and efficient, but fiddly. A bug generator approach. So, instead, we create an `f` which recalculates ALL warnings from scratch every time there is ANY change. It will inspect all the todos, and reset ALL FLAGS every time (overwriting what was there previously) and fully recalculate the list of duplicates (displayed at the bottom?). https://twitter.com/nathanmarz/status/879722740776939520 By applying `f` in an `:enrich` interceptor, after every CRUD event, we keep the handlers simple and yet we ensure this important step (of getting warnings right) is not missed on any change. We can test `f` easily - it is a pure function - independently of any CRUD operation. This brings huge simplicity at the expense of some re-computation each time. This may be a very satisfactory trade-off in many cases.
(fx-handler->interceptor handler-fn)
Returns an interceptor which wraps the kind of event handler given to reg-event-fx
.
These handlers take two arguments; coeffects
and event
, and they return effects
.
(fn [coeffects event] {:db ... :dispatch ...})
Wrap handler in an interceptor so it can be added to (the RHS) of a chain:
:coeffects
:effects
Returns an interceptor which wraps the kind of event handler given to `reg-event-fx`. These handlers take two arguments; `coeffects` and `event`, and they return `effects`. (fn [coeffects event] {:db ... :dispatch ...}) Wrap handler in an interceptor so it can be added to (the RHS) of a chain: 1. extracts `:coeffects` 2. call handler-fn giving coeffects 3. stores the result back into the `:effects`
(on-changes f out-path & in-paths)
Interceptor factory which acts a bit like reaction
(but it flows into
db
, rather than out). It observes N paths within db
and if any of them
test not identical? to their previous value (as a result of a event handler
being run) then it runs f
to compute a new value, which is then assoc-ed
into the given out-path
within db
.
Usage:
(defn my-f [a-val b-val] ... some computation on a and b in here)
(on-changes my-f [:c] [:a] [:b])
Put this Interceptor on the right handlers (ones which might change :a or :b). It will:
f
each time the value at path [:a] or [:b] changesf
with the values extracted from [:a] [:b]f
into the path [:c]Interceptor factory which acts a bit like `reaction` (but it flows into `db`, rather than out). It observes N paths within `db` and if any of them test not identical? to their previous value (as a result of a event handler being run) then it runs `f` to compute a new value, which is then assoc-ed into the given `out-path` within `db`. Usage: (defn my-f [a-val b-val] ... some computation on a and b in here) (on-changes my-f [:c] [:a] [:b]) Put this Interceptor on the right handlers (ones which might change :a or :b). It will: - call `f` each time the value at path [:a] or [:b] changes - call `f` with the values extracted from [:a] [:b] - assoc the return value from `f` into the path [:c]
(path & args)
returns an interceptor whose :before
substitutes the coeffects :db
with
a sub-path of :db
. Within :after
it grafts the handler's return value
back into db, at the right path.
So, its overall action is to make the event handler behave like the function
you might give to clojure's update-in
.
Examples: (path :some :path) (path [:some :path]) (path [:some :path] :to :here) (path [:some :path] [:to] :here)
Example Use:
(reg-event-db :event-id (path [:a :b]) ;; used here, in interceptor chain (fn [b v] ;; 1st arg is now not db. Is the value from path [:a :b] within db ... new-b)) ;; returns a new value for that path (not the entire db)
Notes:
path
may appear more than once in an interceptor chain. Progressive narrowing.:effects
contains no :db
effect, can't graft a value back in.returns an interceptor whose `:before` substitutes the coeffects `:db` with a sub-path of `:db`. Within `:after` it grafts the handler's return value back into db, at the right path. So, its overall action is to make the event handler behave like the function you might give to clojure's `update-in`. Examples: (path :some :path) (path [:some :path]) (path [:some :path] :to :here) (path [:some :path] [:to] :here) Example Use: (reg-event-db :event-id (path [:a :b]) ;; used here, in interceptor chain (fn [b v] ;; 1st arg is now not db. Is the value from path [:a :b] within db ... new-b)) ;; returns a new value for that path (not the entire db) Notes: 1. `path` may appear more than once in an interceptor chain. Progressive narrowing. 2. if `:effects` contains no `:db` effect, can't graft a value back in.
An interceptor which removes the first element of the event vector, allowing you to write more aesthetically pleasing event handlers. No leading underscore on the event-v! Your event handlers will look like this:
(defn my-handler
[db [x y z]] ;; <-- instead of [_ x y z]
....)
An interceptor which removes the first element of the event vector, allowing you to write more aesthetically pleasing event handlers. No leading underscore on the event-v! Your event handlers will look like this: (defn my-handler [db [x y z]] ;; <-- instead of [_ x y z] ....)
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