import { DestroyRef, Injector, NgZone, assertInInjectionContext, computed, effect, inject, signal, untracked, } from '@angular/core' import { MutationObserver, QueryClient, noop, notifyManager, shouldThrowError, } from '@tanstack/query-core' import { signalProxy } from './signal-proxy' import type { DefaultError, MutationObserverResult } from '@tanstack/query-core' import type { CreateMutateFunction, CreateMutationResult } from './types' import type { CreateMutationOptions } from './mutation-options' export interface InjectMutationOptions { /** * The `Injector` in which to create the mutation. * * If this is not provided, the current injection context will be used instead (via `inject`). */ injector?: Injector } /** * Injects a mutation: an imperative function that can be invoked which typically performs server side effects. * * Unlike queries, mutations are not run automatically. * @param injectMutationFn - A function that returns mutation options. * @param options - Additional configuration * @returns The mutation. * @public */ export function injectMutation< TData = unknown, TError = DefaultError, TVariables = void, TContext = unknown, >( injectMutationFn: () => CreateMutationOptions< TData, TError, TVariables, TContext >, options?: InjectMutationOptions, ): CreateMutationResult { !options?.injector && assertInInjectionContext(injectMutation) const injector = options?.injector ?? inject(Injector) const destroyRef = injector.get(DestroyRef) const ngZone = injector.get(NgZone) const queryClient = injector.get(QueryClient) /** * computed() is used so signals can be inserted into the options * making it reactive. Wrapping options in a function ensures embedded expressions * are preserved and can keep being applied after signal changes */ const optionsSignal = computed(injectMutationFn) const observerSignal = (() => { let instance: MutationObserver | null = null return computed(() => { return (instance ||= new MutationObserver(queryClient, optionsSignal())) }) })() const mutateFnSignal = computed< CreateMutateFunction >(() => { const observer = observerSignal() return (variables, mutateOptions) => { observer.mutate(variables, mutateOptions).catch(noop) } }) /** * Computed signal that gets result from mutation cache based on passed options */ const resultFromInitialOptionsSignal = computed(() => { const observer = observerSignal() return observer.getCurrentResult() }) /** * Signal that contains result set by subscriber */ const resultFromSubscriberSignal = signal | null>(null) effect( () => { const observer = observerSignal() const observerOptions = optionsSignal() untracked(() => { observer.setOptions(observerOptions) }) }, { injector, }, ) effect( () => { // observer.trackResult is not used as this optimization is not needed for Angular const observer = observerSignal() untracked(() => { const unsubscribe = ngZone.runOutsideAngular(() => observer.subscribe( notifyManager.batchCalls((state) => { ngZone.run(() => { if ( state.isError && shouldThrowError(observer.options.throwOnError, [state.error]) ) { ngZone.onError.emit(state.error) throw state.error } resultFromSubscriberSignal.set(state) }) }), ), ) destroyRef.onDestroy(unsubscribe) }) }, { injector, }, ) const resultSignal = computed(() => { const resultFromSubscriber = resultFromSubscriberSignal() const resultFromInitialOptions = resultFromInitialOptionsSignal() const result = resultFromSubscriber ?? resultFromInitialOptions return { ...result, mutate: mutateFnSignal(), mutateAsync: result.mutate, } }) return signalProxy(resultSignal) as CreateMutationResult< TData, TError, TVariables, TContext > }