2019-12-03 14:59:28 +01:00
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use std::future::Future;
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2019-11-14 13:38:24 +01:00
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use std::task::{Context, Poll};
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2019-11-18 09:30:04 +01:00
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use crate::and_then::{AndThenService, AndThenServiceFactory};
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2019-12-03 14:59:28 +01:00
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use crate::and_then_apply_fn::{AndThenApplyFn, AndThenApplyFnFactory};
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2019-11-29 08:51:00 +01:00
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use crate::map::{Map, MapServiceFactory};
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use crate::map_err::{MapErr, MapErrServiceFactory};
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use crate::map_init_err::MapInitErr;
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2019-11-18 09:30:04 +01:00
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use crate::then::{ThenService, ThenServiceFactory};
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2019-11-14 13:38:24 +01:00
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use crate::{IntoService, IntoServiceFactory, Service, ServiceFactory};
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2019-12-10 16:11:39 +01:00
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/// Contruct new pipeline with one service in pipeline chain.
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2019-11-14 13:38:24 +01:00
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pub fn pipeline<F, T>(service: F) -> Pipeline<T>
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where
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F: IntoService<T>,
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T: Service,
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{
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Pipeline {
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service: service.into_service(),
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}
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}
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2019-12-10 16:11:39 +01:00
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/// Contruct new pipeline factory with one service factory.
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2019-11-14 13:38:24 +01:00
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pub fn pipeline_factory<T, F>(factory: F) -> PipelineFactory<T>
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where
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T: ServiceFactory,
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F: IntoServiceFactory<T>,
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{
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PipelineFactory {
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factory: factory.into_factory(),
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}
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}
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2019-12-10 16:34:51 +01:00
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/// Pipeline service - pipeline allows to compose multiple service into one service.
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2019-11-14 13:38:24 +01:00
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pub struct Pipeline<T> {
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service: T,
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}
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impl<T: Service> Pipeline<T> {
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/// Call another service after call to this one has resolved successfully.
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///
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/// This function can be used to chain two services together and ensure that
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/// the second service isn't called until call to the fist service have
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/// finished. Result of the call to the first service is used as an
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/// input parameter for the second service's call.
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///
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/// Note that this function consumes the receiving service and returns a
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/// wrapped version of it.
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2020-01-17 01:58:11 +01:00
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pub fn and_then<F, U>(
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self,
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service: F,
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) -> Pipeline<
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impl Service<Request = T::Request, Response = U::Response, Error = T::Error> + Clone,
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>
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2019-11-14 13:38:24 +01:00
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where
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Self: Sized,
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F: IntoService<U>,
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2020-01-15 22:24:38 +01:00
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U: Service<Request = T::Response, Error = T::Error>,
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2019-11-14 13:38:24 +01:00
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{
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Pipeline {
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2019-11-18 09:30:04 +01:00
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service: AndThenService::new(self.service, service.into_service()),
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2019-11-14 13:38:24 +01:00
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}
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}
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2019-12-03 14:59:28 +01:00
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/// Apply function to specified service and use it as a next service in
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/// chain.
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///
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/// Short version of `pipeline_factory(...).and_then(apply_fn_factory(...))`
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pub fn and_then_apply_fn<U, I, F, Fut, Res, Err>(
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self,
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service: I,
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f: F,
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2020-01-17 01:58:11 +01:00
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) -> Pipeline<impl Service<Request = T::Request, Response = Res, Error = Err> + Clone>
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2019-12-03 14:59:28 +01:00
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where
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Self: Sized,
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I: IntoService<U>,
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2020-01-15 22:24:38 +01:00
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U: Service,
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2019-12-03 14:59:28 +01:00
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F: FnMut(T::Response, &mut U) -> Fut,
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Fut: Future<Output = Result<Res, Err>>,
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Err: From<T::Error> + From<U::Error>,
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{
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Pipeline {
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service: AndThenApplyFn::new(self.service, service.into_service(), f),
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}
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}
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2019-11-14 13:38:24 +01:00
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/// Chain on a computation for when a call to the service finished,
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/// passing the result of the call to the next service `U`.
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///
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/// Note that this function consumes the receiving pipeline and returns a
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/// wrapped version of it.
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2020-01-17 01:58:11 +01:00
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pub fn then<F, U>(
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self,
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service: F,
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) -> Pipeline<
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impl Service<Request = T::Request, Response = U::Response, Error = T::Error> + Clone,
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>
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2019-11-14 13:38:24 +01:00
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where
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Self: Sized,
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F: IntoService<U>,
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2020-01-15 22:24:38 +01:00
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U: Service<Request = Result<T::Response, T::Error>, Error = T::Error>,
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2019-11-14 13:38:24 +01:00
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{
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Pipeline {
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2019-11-18 09:30:04 +01:00
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service: ThenService::new(self.service, service.into_service()),
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2019-11-14 13:38:24 +01:00
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}
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}
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2019-11-29 08:51:00 +01:00
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/// Map this service's output to a different type, returning a new service
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/// of the resulting type.
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///
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/// This function is similar to the `Option::map` or `Iterator::map` where
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/// it will change the type of the underlying service.
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///
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/// Note that this function consumes the receiving service and returns a
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/// wrapped version of it, similar to the existing `map` methods in the
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/// standard library.
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pub fn map<F, R>(self, f: F) -> Pipeline<Map<T, F, R>>
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where
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Self: Sized,
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F: FnMut(T::Response) -> R,
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{
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Pipeline {
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service: Map::new(self.service, f),
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}
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}
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/// Map this service's error to a different error, returning a new service.
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///
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/// This function is similar to the `Result::map_err` where it will change
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/// the error type of the underlying service. This is useful for example to
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/// ensure that services have the same error type.
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///
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/// Note that this function consumes the receiving service and returns a
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/// wrapped version of it.
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pub fn map_err<F, E>(self, f: F) -> Pipeline<MapErr<T, F, E>>
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where
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Self: Sized,
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F: Fn(T::Error) -> E,
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{
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Pipeline {
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service: MapErr::new(self.service, f),
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}
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}
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2019-11-14 13:38:24 +01:00
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}
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impl<T> Clone for Pipeline<T>
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where
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T: Clone,
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{
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fn clone(&self) -> Self {
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Pipeline {
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service: self.service.clone(),
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}
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}
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}
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impl<T: Service> Service for Pipeline<T> {
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type Request = T::Request;
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type Response = T::Response;
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type Error = T::Error;
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type Future = T::Future;
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#[inline]
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fn poll_ready(&mut self, ctx: &mut Context<'_>) -> Poll<Result<(), T::Error>> {
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self.service.poll_ready(ctx)
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}
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#[inline]
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fn call(&mut self, req: T::Request) -> Self::Future {
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self.service.call(req)
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}
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}
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2019-12-10 16:34:51 +01:00
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/// Pipeline factory
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2019-11-14 13:38:24 +01:00
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pub struct PipelineFactory<T> {
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factory: T,
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}
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impl<T: ServiceFactory> PipelineFactory<T> {
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/// Call another service after call to this one has resolved successfully.
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2020-01-17 01:58:11 +01:00
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pub fn and_then<F, U>(
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self,
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factory: F,
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) -> PipelineFactory<
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impl ServiceFactory<
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Request = T::Request,
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Response = U::Response,
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Error = T::Error,
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Config = T::Config,
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InitError = T::InitError,
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Service = impl Service<
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Request = T::Request,
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Response = U::Response,
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Error = T::Error,
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> + Clone,
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> + Clone,
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>
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2019-11-14 13:38:24 +01:00
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where
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Self: Sized,
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2019-12-02 16:27:48 +01:00
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T::Config: Clone,
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2019-11-14 13:38:24 +01:00
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F: IntoServiceFactory<U>,
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U: ServiceFactory<
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Config = T::Config,
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Request = T::Response,
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Error = T::Error,
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InitError = T::InitError,
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>,
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{
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PipelineFactory {
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2019-11-18 09:30:04 +01:00
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factory: AndThenServiceFactory::new(self.factory, factory.into_factory()),
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2019-11-14 13:38:24 +01:00
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}
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}
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2019-12-03 14:59:28 +01:00
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/// Apply function to specified service and use it as a next service in
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/// chain.
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///
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/// Short version of `pipeline_factory(...).and_then(apply_fn_factory(...))`
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pub fn and_then_apply_fn<U, I, F, Fut, Res, Err>(
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self,
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factory: I,
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f: F,
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2020-01-17 01:58:11 +01:00
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) -> PipelineFactory<
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impl ServiceFactory<
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Request = T::Request,
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Response = Res,
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Error = Err,
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Config = T::Config,
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InitError = T::InitError,
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Service = impl Service<Request = T::Request, Response = Res, Error = Err> + Clone,
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> + Clone,
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>
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2019-12-03 14:59:28 +01:00
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where
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Self: Sized,
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T::Config: Clone,
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I: IntoServiceFactory<U>,
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U: ServiceFactory<Config = T::Config, InitError = T::InitError>,
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2019-12-05 07:37:26 +01:00
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F: FnMut(T::Response, &mut U::Service) -> Fut + Clone,
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2019-12-03 14:59:28 +01:00
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Fut: Future<Output = Result<Res, Err>>,
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Err: From<T::Error> + From<U::Error>,
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{
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PipelineFactory {
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factory: AndThenApplyFnFactory::new(self.factory, factory.into_factory(), f),
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}
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}
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2019-11-14 13:38:24 +01:00
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/// Create `NewService` to chain on a computation for when a call to the
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/// service finished, passing the result of the call to the next
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/// service `U`.
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///
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/// Note that this function consumes the receiving pipeline and returns a
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/// wrapped version of it.
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2020-01-17 01:58:11 +01:00
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pub fn then<F, U>(
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self,
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factory: F,
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) -> PipelineFactory<
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impl ServiceFactory<
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Request = T::Request,
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Response = U::Response,
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Error = T::Error,
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Config = T::Config,
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InitError = T::InitError,
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Service = impl Service<
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Request = T::Request,
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Response = U::Response,
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Error = T::Error,
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> + Clone,
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> + Clone,
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>
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2019-11-14 13:38:24 +01:00
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where
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Self: Sized,
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2019-12-02 16:27:48 +01:00
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T::Config: Clone,
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2019-11-14 13:38:24 +01:00
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F: IntoServiceFactory<U>,
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U: ServiceFactory<
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Config = T::Config,
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Request = Result<T::Response, T::Error>,
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Error = T::Error,
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InitError = T::InitError,
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>,
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{
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PipelineFactory {
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2019-11-18 09:30:04 +01:00
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factory: ThenServiceFactory::new(self.factory, factory.into_factory()),
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2019-11-14 13:38:24 +01:00
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}
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}
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2019-11-29 08:51:00 +01:00
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/// Map this service's output to a different type, returning a new service
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/// of the resulting type.
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pub fn map<F, R>(self, f: F) -> PipelineFactory<MapServiceFactory<T, F, R>>
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where
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Self: Sized,
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F: FnMut(T::Response) -> R + Clone,
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{
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PipelineFactory {
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factory: MapServiceFactory::new(self.factory, f),
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}
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}
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/// Map this service's error to a different error, returning a new service.
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pub fn map_err<F, E>(self, f: F) -> PipelineFactory<MapErrServiceFactory<T, F, E>>
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where
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Self: Sized,
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F: Fn(T::Error) -> E + Clone,
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{
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PipelineFactory {
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factory: MapErrServiceFactory::new(self.factory, f),
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}
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}
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/// Map this factory's init error to a different error, returning a new service.
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pub fn map_init_err<F, E>(self, f: F) -> PipelineFactory<MapInitErr<T, F, E>>
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where
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Self: Sized,
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F: Fn(T::InitError) -> E + Clone,
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{
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PipelineFactory {
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factory: MapInitErr::new(self.factory, f),
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}
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}
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2019-11-14 13:38:24 +01:00
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}
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impl<T> Clone for PipelineFactory<T>
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where
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T: Clone,
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{
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fn clone(&self) -> Self {
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PipelineFactory {
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factory: self.factory.clone(),
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}
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}
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}
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impl<T: ServiceFactory> ServiceFactory for PipelineFactory<T> {
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type Config = T::Config;
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type Request = T::Request;
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type Response = T::Response;
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type Error = T::Error;
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type Service = T::Service;
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type InitError = T::InitError;
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type Future = T::Future;
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#[inline]
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2019-12-02 16:27:48 +01:00
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fn new_service(&self, cfg: T::Config) -> Self::Future {
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2019-11-14 13:38:24 +01:00
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self.factory.new_service(cfg)
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}
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}
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