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compare: GitHub/OpenCombine:master
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GitHub/OpenCombine:master GitHub/OpenCombine:combine-latest GitHub/OpenCombine:merge-publisher GitHub/OpenCombine:observable-object
GitHub/OpenCombine:0.14.0 GitHub/OpenCombine:0.13.0 GitHub/OpenCombine:0.12.0 GitHub/OpenCombine:0.11.0 GitHub/OpenCombine:0.10.2 GitHub/OpenCombine:0.10.1 GitHub/OpenCombine:0.10.0 GitHub/OpenCombine:0.9.0 GitHub/OpenCombine:0.8.0 GitHub/OpenCombine:0.7.0 GitHub/OpenCombine:0.6.0 GitHub/OpenCombine:0.5.0 GitHub/OpenCombine:0.4.0 GitHub/OpenCombine:0.3.0 GitHub/OpenCombine:0.2.0 GitHub/OpenCombine:0.1.0

130 Commits
0.10.1 ... master

Author SHA1 Message Date
Saleem Abdulrasool 1c6f02c7ed COpenCOmbineHelpers: add an explicit modulemap 
Introduce an explicit modulemap as not all build systems will write out
a modulemap for you.  Add the explicit modulemap to allow building with
alternative build systems.
 2023-10-20 09:15:55 +03:00
Sergej Jaskiewicz 8576f0d579 Prepare the 0.14.0 release 2023-04-23 18:11:38 +02:00
Sergej Jaskiewicz 8f8ef5057d Update for Xcode 14 2023-04-23 18:11:38 +02:00
Sergej Jaskiewicz ff31c43375 I forgot that we've fixed ObservableObject 2022-02-02 14:00:46 +03:00
Sergej Jaskiewicz 27d76e1fed Remove unneeded files 2022-02-01 21:44:46 +03:00
Sergej Jaskiewicz 5823523b72 Move 'Contributing' section from README to a separate file 2022-02-01 21:43:30 +03:00
Sergej Jaskiewicz 6f7c3c4b47 Remove Slack badge from README.md 2022-02-01 21:22:41 +03:00
Sergej Jaskiewicz 4d9a7d6a5b Mention 0.13.0 in the changelog 2022-02-01 21:22:09 +03:00
Sergej Jaskiewicz 9cf67e3637 Prepare for release 0.13.0 2022-02-01 21:17:50 +03:00
Sergej Jaskiewicz 3877609ba2 fixup! Fix TSan false positives on Ubuntu 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 734e7e39cb Make async tests more reliable 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 2085bb7593 Fix tests on Xcode 10.3 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 5b247a5a01 Fix TSan false positives on Ubuntu 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 64f436c748 Disable TSan when testing with Xcode 10 and 13 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz b4e6313814 Fix some data races in tests 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz a0cf895c8c Don't generate LinuxMain.swift on newer Swift versions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz dec7d4a569 Bump swift-tools-version 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz fdc7550ff7 Fix SwiftLint, make it strict 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 135dc9a8ab Fix TSan tests on macOS 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 37a4fe400f Show GHA status in README 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 7b466153a6 Fix Swift 5.5 tests on Windows and Wasm 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz baac42a0ad Migrate macOS tests from CircleCI to GitHub Actions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz fd05f5c8ff Migrate pod lib lint from CircleCI to GitHub Actions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 8bfdcd4295 Migrate compatibility tests from CircleCI to GitHub Actions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 90454807b4 WASM -> Wasm 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 77374fa820 Convert Windows GHA workflow to matrix 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 8eda9d7e3d Migrate Linux tests from CircleCI to GitHub Actions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 35cfe51c72 Generate LinuxMain.swift on Windows 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 42c0fa02ae Disable WASM tests on Swift 5.5 
They don't compile due to presence of async test methods
 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 999a29cdf9 Support async tests in discover_tests.py 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 36edf4819b Run WASM tests with Swift 5.5 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz dfac8a9da7 Add manifest specifically for Swift 5.4 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 070ed94d18 Fix CI config 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz ea8938db72 Add tests for Publisher concurrency extensions, fix implementation 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 4392b4610c Add tests for Future concurrency extensions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz c96f2e300d Update availability annotations for concurrency extensions 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 94de7bae46 Update the list of supported platforms 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz ed1b06ba51 Test with Swift 5.5.1 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 4b2c87a0bb Update Future implementation 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 0243fd063d Enable concurrency only since Swift 5.5 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 4fed5e9a5a Simplify a helper in Package.swift 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 80a4915715 Enable testing with Swift 5.4 on WASM 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 4716805f12 Make it compile 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 5490ff9be9 Enable testing with Swift 5.5 on Windows 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz c911862a24 [Xcode 13] Implement async/await support for publishers (no tests yet) 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz f823f7b18c Introduce take() helper method 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 02d1494ce9 [Xcode 13] Fix implementation so tests pass 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz f69bf6af64 [Xcode 13] Update tests so they pass in Combine compatibility mode 2022-02-01 18:58:40 +03:00
Sergej Jaskiewicz 866d837cdf [Xcode 13] Add new APIs to RemainingSwiftInterface.swift 2022-02-01 18:58:40 +03:00
Marcus Ficner 7d0a8cd6f8 Fix typo in Publishers.FlatMap.swift (#228) 2022-01-23 12:37:12 +00:00
Max Desiatov dfd3cdf890 Migrate SwiftLint checks from CircleCI to GHA (#226) 
SwiftLint integration with Danger no longer works on CircleCI. I'm migrating it to GitHub Actions in a way that's known to work in other repositories.

* Create swiftlint.yml

* Update config.yml
 2021-11-29 16:56:32 +01:00
ArthurChi ef0288e075 Implement Zip operator (#222) 
Co-authored-by: Eric Patey <eric@patey.com>
Co-authored-by: Max Desiatov <max@desiatov.com>
Co-authored-by: ArthurChi <chijie@bytedance.com>
Co-Authored-By: Sergej Jaskiewicz <broadwaylamb@users.noreply.github.com>
 2021-11-22 00:29:57 +01:00
Max Desiatov f219d6f6a5 Fix Slack invite link in README.md (#224) 
Resolves #223.
 2021-11-03 21:37:18 +01:00
Sergej Jaskiewicz 710dfa2715 Mention Windows in README.md 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz 791625ff3b Disable running tests on iOS 9.3 
CircleCI have deprecated the image :(
 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz 7e4cdde419 "Fix" Publishers.Breakpoint tests on Windows 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz 096e245d02 Support Windows threads in tests 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz 1879860f35 I'm so tired of the Swift team breaking things on non-Darwin platforms 
https://forums.swift.org/t/formalizing-the-unavailability-of-core-foundation/40216
 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz ace5778817 Support Windows in Package.swift 2021-09-24 16:26:09 +03:00
Sergej Jaskiewicz 12700a0500 Make COpenCombineHelpers buildable on Windows 2021-09-24 16:26:09 +03:00
Max Desiatov 6c8108f9dc Test with Windows on GitHub Actions 2021-09-24 16:26:09 +03:00
ArthurChi b27b2c31ce Subscribers reentrancy bugs fix (#211) 
Co-authored-by: VassilyChi <chijie@bytedance.com>
 2021-07-29 01:48:45 +03:00
Sergej Jaskiewicz 3d3adb564b Release the Suffix publisher in Concatenate's Inner 2021-07-29 01:48:45 +03:00
Sergej Jaskiewicz 925bee4af9 Fix reentrancy bugs in Subscribers.Assign 2021-07-29 01:48:45 +03:00
Sergej Jaskiewicz adcee8c14d Fix reentrancy bugs in Subscribers.Sink 2021-07-29 01:48:45 +03:00
dependabot[bot] 29126ac259 Bump addressable from 2.7.0 to 2.8.0 (#212) 2021-07-13 07:54:20 +00:00
Sergej Jaskiewicz bab8e08d2f Work around SwiftLint nested configuration bug 
There is a bug introduced in SwiftLint 0.43.0 (?) when nested configurations don't work.
Nested configurations let us place additional .swiftlint.yml files in subdirectories that
specify rules that should only apply to that subdirectory. This is broken now.
 2021-06-21 17:38:33 +03:00
Sergej Jaskiewicz 4060ee9f57 Fix compatibility with Xcode 12.5 toolchain and SDKs 2021-06-21 17:38:33 +03:00
Sergej Jaskiewicz 5996772433 Bump Xcode version for compatibility testing 2021-02-22 20:47:35 +03:00
Sergej Jaskiewicz cd45c77fac Implement Publishers.PrefixUntilOutput 2021-02-22 20:47:35 +03:00
Stuart Austin e618d179fe Add Publishers.Throttle implementation (#195) 
* Publishers.Throttle implementation with tests

* Fix Throttle lint errors and removed expectation from throttle tests. Add additional test for cancelling a subscription before a scheduled value is emitted

* Fix VirtualTimeScheduler's executeSchedulesActions default deadline not being far enough into the future on 32-bit platforms.

* Fixed multiple lint errors

* Improve Publishers.Throttle code coverage by removing enum for pending emissions

* Additional Throttle test for cancelling a Subscriber when an output has been scheduled

* ThrottleTests now run on WASI
 2021-02-18 13:56:55 +00:00
Marcus Scherer 4fa5f48c19 Fix typo (#204) 2021-02-08 19:41:49 +03:00
Max Desiatov 28993ae57d Add CHANGELOG.md, bump version to 0.12.0 (#202) 
* Add CHANGELOG.md, bump version to 0.12.0

* Mention the timer bug fix in `CHANGELOG.md`
 2021-01-29 15:05:56 +00:00
Grigory Entin 3d61bf87e7 Fixed Timer(timeInterval:,repeats:,block:) not accounting timeInterval for the first fire date. (#196) 
https://github.com/OpenCombine/OpenCombine/blob/master/Sources/OpenCombineFoundation/Helpers/Portability.swift#L58-L64

It looks like this was a typo/something overlooked, but basically, this `fire: Date()` breaks at least every timer publisher like `Timer.publish(every: timeInterval, on: .main, in: .default)`, as it basically results in the *first* event fired immediately vs in timeInterval. (Just in case, no, Combine does not fire that extra event).

* Fixed Timer(timeInterval:,repeats:,block:) not accounting timeInterval for the first fire date.

* Fixed Danger warning about line length.
 2021-01-29 13:42:17 +00:00
Max Desiatov 911a4e1aa3 Add OpenCombineShim product for easier importing (#197) 2021-01-25 17:25:28 +03:00
Yuta Saito beb38dec0e Implementation for ObservableObject with Mirror (#201) 
A temporary implementation until we implement the proper type metadata introspection.
 2021-01-25 17:24:19 +03:00
Nomo Nomad 1fbf688897 Update README.md (#199) 2020-12-11 16:41:20 +03:00
Sergej Jaskiewicz 5436868053 Fix some lock acquiring in Publishers.FlatMap (#194) 2020-11-08 17:44:33 +03:00
Sergej Jaskiewicz 4977ca158f Update DispatchQueue scheduler to match iOS 14.2 behavior 2020-11-07 17:28:08 +03:00
Sergej Jaskiewicz 96214ac5f9 Run compatibility tests on iOS 14.2 2020-11-07 17:28:08 +03:00
Sergej Jaskiewicz 21fda909f5 Implement Publishers.Retry 2020-11-07 17:28:08 +03:00
Sergej Jaskiewicz 8438d09b82 Increase time intervals in OperationQueue tests 
The test is sporadically failing on iOS 9.3.
 2020-11-03 17:21:34 +03:00
Sergej Jaskiewicz 30a60b52cc Add missing availability annotations in tests 
Fixes #192
 2020-11-03 17:21:34 +03:00
Sergej Jaskiewicz a93ed143fb Add more supported platforms to Package.swift 2020-11-03 17:21:34 +03:00
Max Desiatov e054a884ef Add support for SwiftWasm with CI and tests (#191) 
WebAssembly support for atomics and multi-threading isn't fully standardized yet, and it not supported in SwiftWasm at the moment. Because of this Dispatch is unavailable, and all Combine-related Foundation stuff is unavailable too. Tests related to this are disabled. Locking functions are replaced with no-op shims.
 2020-11-02 22:02:39 +00:00
Sergej Jaskiewicz 9bba508134 Bump the version to 0.11.0 2020-10-30 00:53:48 +03:00
Sergej Jaskiewicz 2d857d6d66 Remove the note about the project being in early development 2020-10-30 00:53:48 +03:00
Sergej Jaskiewicz 7286336b28 Enable URLSession tests on non-Darwin platforms since Swift 5.3 
Closes #169.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 8a0bb6f846 [Xcode 12] Update Publishers.Debounce implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 142811c500 [Xcode 12] Update @Published implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 3b1cff9337 [Xcode 12] Implement Optional.publisher property 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz efb4369c74 [Xcode 12] Add new flatMap(maxPublishers:_:) overloads 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 9d87a3b4ea [Xcode 12] Update Publishers.Buffer implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 4714b80631 [Xcode 12] Update Publishers.Drop implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 3cba7363b4 Better API for the Atomic test helper 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz b2f592611d Enable tests on Ubuntu using Swift 5.0 and make them pass 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 8786d0860a Use custom script for test discovery 
Standard test discovery is not available in Swift 5.0, but we want to
support this version of Swift.

Besides, standard test discovery doesn't work very well with CircleCI:
https://bugs.swift.org/browse/SR-10783
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 9100ccafb3 Enable testing with Swift 5.1 and Swift 5.3 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 3fa048ddca Make DispatchQueue scheduler tests pass in release mode. 
In the new version of the Swift compiler, due to a new optimization
the cancellation token was deallocated immediately, resulting in
the closure never being executed. Fix this by extending the token's
lifetime.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 8832baa05b [Xcode 12] Update Publishers.ReplaceError implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 11fdf7eaf3 [Xcode 12] Update Publishers.[Encode|Decode] implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 059a86d393 [Xcode 12] Update Publishers.CompactMap implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz c1b4d93a0f [Xcode 12] Update Publishers.Filter implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz fb184ceebe [Xcode 12] Add new switchToLatest() overloads 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 69b50074ff [Xcode 12] Update AnyPublisher and AnySubscriber initializers 
The new version avoids double boxing.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 7351cd671c [Xcode 12] Update documentation 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 26e112f894 [Xcode 12] Implement _Introspection functionality 
_Introspection allows to observe the subscription graph and data flow.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 6c732515d8 [Xcode 12] Update Publishers.Delay implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 6892923743 [Xcode 12] Update Timer publisher implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz f8809ffac4 [Xcode 12] Update Publishers.HandleEvents implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 5da402bb2c Fix a deprecation warning in Publishers.Breakpoint implementation 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz e962ce1e3b [Xcode 12] Update OperationQueue scheduler implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 19df744bf1 [Xcode 12] Update Publishers.ReceiveOn implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 69cc5a92c2 [Xcode 12] Update Publishers.Timeout implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz cb22cc98f2 [Xcode 12] Update Publishers.Sequence implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 22cf5b69ba [Xcode 12] Update Publishers.SubscribeOn implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz a3fecd18e6 [Xcode 12] Update RunLoop scheduler implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 48c6f2999b [Xcode 12] Update Publishers.MeasureInterval implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 91297ae63a [Xcode 12] Update Publishers.IgnoreOutput implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 6f61dcc083 [Xcode 12] Update Subscribers.Assign implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 24eca2fab8 [Xcode 12] Update Publishers.Breakpoint implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 9b3c36124f [Xcode 12] Update Subscribers.Sink implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 1b017e1dfc [Xcode 12] Update DispatchQueue.SchedulerTimeType.Stride implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 32b3aeb94c [Xcode 12] Update CombineIdentifier implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 579d174288 [Xcode 12] Update Publishers.Concatenate implementation and tests 
The tests now pass in compatibility mode when run against iOS 14 Combine.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 1c850fc6bb Make it buildable with Xcode 12 toolchain 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz b35ecf8356 Enable compatibility testing against iOS 14 Combine 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz 302f663a3f Don't track file and line in test methods 
Since Xcode 12 those are tracked automatically.
No need to use #file and #line tokens in method arguments.
 2020-10-29 19:49:34 +03:00
Sergej Jaskiewicz c805f0f5aa Bump the version to 0.10.2 (#188) 2020-10-23 15:29:02 +03:00
Sergej Jaskiewicz cb99f8b298 Make downstreamSubject a weak property in SubjectSubscriber (#187) 
This is how it is in Combine.

Fixes #186.
 2020-10-23 13:48:43 +03:00
227 changed files with 17696 additions and 3876 deletions
Expand all files Collapse all files
.circleci/config.yml
-274
View File
@@ -1,274 +0,0 @@
version: 2
jobs:
"Execute tests on macOS 10.15.0 (Xcode 11.3.0, Swift 5.1.3)":
macos:
xcode: "11.3.0"
environment:
SWIFT_VERSION: "5.1.3"
steps:
- checkout
- run:
name: Building and running tests in debug mode with coverage
command: |
make test-debug \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--enable-code-coverage --build-path .build-test-debug"
xcrun llvm-cov show \
-instr-profile=.build-test-debug/debug/codecov/default.profdata \
.build-test-debug/debug/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests \
> coverage.txt
- run:
name: Building and running tests in debug mode with TSan
command: |
make test-debug-sanitize-thread \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--build-path .build-test-debug-sanitize-thread"
- run:
name: Building and running tests in release mode
command: |
make test-release \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--build-path .build-test-release"
- run:
name: Generating Xcode project
command: make generate-xcodeproj SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors"
- run:
name: Building for testing on macOS 10.15.0 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild build-for-testing \
-scheme OpenCombine-Package \
-sdk macosx10.15 \
-derivedDataPath DerivedData \
| tee xcodebuild_build-for-testing.log \
| xcpretty
- store_artifacts:
path: xcodebuild_build-for-testing.log
- run:
name: Testing on macOS 10.15.0 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild test-without-building \
-scheme OpenCombine-Package \
-sdk macosx10.15 \
-derivedDataPath DerivedData \
| tee xcodebuild_test-without-building.log \
| xcpretty --report junit -o build/reports/results.xml
- store_artifacts:
path: xcodebuild_test-without-building.log
- store_test_results:
path: build/reports
- run:
name: Uploading code coverage
command: |
bash <(curl -s https://codecov.io/bash) -D DerivedData
"Execute compatibility tests on iOS 13.6 (Xcode 11.6.0, Swift 5.2.4)":
macos:
xcode: "11.6.0"
environment:
SWIFT_VERSION: "5.2.4"
steps:
- checkout
- run:
name: Generating Xcode project
command: make generate-compatibility-xcodeproj
- run:
name: Building for testing on iOS 13.6 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild build-for-testing \
-scheme OpenCombine-Package \
-destination "platform=iOS Simulator,name=iPhone 11,OS=13.6" \
-derivedDataPath DerivedData \
| tee xcodebuild_build-for-testing.log \
| xcpretty
- store_artifacts:
path: xcodebuild_build-for-testing.log
- run:
name: Testing against Combine on iOS 13.6 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild test-without-building \
-scheme OpenCombine-Package \
-destination "platform=iOS Simulator,name=iPhone 11,OS=13.6" \
-derivedDataPath DerivedData \
| tee xcodebuild_test-without-building.log \
| xcpretty --report junit -o build/reports/results.xml
- store_artifacts:
path: xcodebuild_test-without-building.log
- store_test_results:
path: build/reports
"Execute tests on iOS 9.3 (Xcode 10.2.1, Swift 5.0.1)":
macos:
xcode: "10.2.1"
environment:
BUNDLE_PATH: .bundle # path to install gems and use for caching
SWIFT_VERSION: "5.0.1"
steps:
- checkout
- run:
name: Installing gem dependencies
command: bundle install && bundle clean
- restore_cache:
keys:
- v1-simulator-cache-{{ arch }}
- run:
# CircleCI doesn't have an iOS 9 simulator, so we need to install it manually.
name: Installing iOS 9 simulator
command: |
bundle exec xcversion simulators --install="iOS 9.3"
bundle exec xcversion simulators
xcrun simctl list
- save_cache:
key: v1-simulator-cache-{{ arch }}
paths:
- ~/Library/Caches/XcodeInstall
- run:
name: Generating Xcode project
command: |
make generate-xcodeproj SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors"
xcodebuild -scheme OpenCombine-Package -showdestinations
- run:
name: Building for testing on iOS 9.3 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild build-for-testing \
-scheme OpenCombine-Package \
-destination "platform=iOS Simulator,name=iPhone 4s,OS=9.3" \
-derivedDataPath DerivedData \
| tee xcodebuild_build-for-testing.log \
| xcpretty
- store_artifacts:
path: xcodebuild_build-for-testing.log
- run:
name: Testing on iOS 9.3 with xcodebuild
command: |
set -o pipefail \
&& xcodebuild test-without-building \
-scheme OpenCombine-Package \
-destination "platform=iOS Simulator,name=iPhone 4s,OS=9.3" \
-derivedDataPath DerivedData \
| tee xcodebuild_test-without-building.log \
| xcpretty --report junit -o build/reports/results.xml
- store_artifacts:
path: xcodebuild_test-without-building.log
- store_test_results:
path: build/reports
- run:
name: Uploading code coverage
command: |
bash <(curl -s https://codecov.io/bash) -D DerivedData
"Execute tests on Ubuntu 18.04 (Swift 5.2)":
docker:
- image: swift:5.2-bionic
environment:
SWIFT_VERSION: "5.2"
steps:
- checkout
- run:
name: Installing dependencies
command: |
apt update -y
apt upgrade -y
apt install -y curl
- run:
name: Building and running tests in debug mode with coverage
command: | # We need to run the test command twice because of https://bugs.swift.org/browse/SR-10783
make test-debug \
SWIFT_TEST_FLAGS="--enable-test-discovery \
--enable-index-store \
--enable-code-coverage \
--build-path .build-test-debug" \
> /dev/null 2>&1 \
|| true
make test-debug \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--enable-test-discovery \
--enable-index-store \
--enable-code-coverage \
--build-path .build-test-debug"
llvm-cov show \
-instr-profile=.build-test-debug/debug/codecov/default.profdata \
.build-test-debug/debug/OpenCombinePackageTests.xctest \
> coverage.txt
- run:
name: Building and running tests in debug mode with TSan
command: | # We need to run the test command twice because of https://bugs.swift.org/browse/SR-10783
make test-debug-sanitize-thread \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--enable-test-discovery \
--enable-index-store \
--build-path .build-test-debug-sanitize-thread" \
> /dev/null 2>&1 \
|| true
make test-debug-sanitize-thread \
SWIFT_TEST_FLAGS="--enable-test-discovery \
--enable-index-store \
--build-path .build-test-debug-sanitize-thread" \
- run:
name: Building and running tests in release mode
command: |
make test-release \
SWIFT_BUILD_FLAGS="-Xswiftc -warnings-as-errors" \
SWIFT_TEST_FLAGS="--enable-test-discovery \
--enable-index-store \
--build-path .build-test-release"
- run:
name: Uploading code coverage
command: |
bash <(curl -s https://codecov.io/bash)
"Run SwiftLint and Danger":
macos:
xcode: "11.3.0"
environment:
HOMEBREW_NO_AUTO_UPDATE: "1"
steps:
- checkout
- run:
name: Install SwiftLint
command: |
brew install swiftlint
- run:
name: Install danger-swift
command: |
brew install danger/tap/danger-swift
- run:
name: Run danger-swift
command: danger-swift ci
"Run Pod spec lint":
macos:
xcode: "11.3.0"
environment:
HOMEBREW_NO_AUTO_UPDATE: "1"
steps:
- checkout
- run:
name: Pod lib lint
command: |
pod lib lint --allow-warnings --verbose
workflows:
version: 2
"OpenCombine: execute tests on macOS":
jobs:
- "Execute tests on macOS 10.15.0 (Xcode 11.3.0, Swift 5.1.3)"
"OpenCombine: execute compatibility tests":
jobs:
- "Execute compatibility tests on iOS 13.6 (Xcode 11.6.0, Swift 5.2.4)"
"OpenCombine: execute tests on iOS":
jobs:
- "Execute tests on iOS 9.3 (Xcode 10.2.1, Swift 5.0.1)"
"OpenCombine: execute tests on Linux":
jobs:
- "Execute tests on Ubuntu 18.04 (Swift 5.2)"
"OpenCombine: run SwiftLint and Danger":
jobs:
- "Run SwiftLint and Danger"
"OpenCombine: validate podspec files":
jobs:
- "Run Pod spec lint"
.github/workflows/cocoapods.yml
+16
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@@ -0,0 +1,16 @@
name: CocoaPods
on:
push:
branches: [master]
pull_request:
branches: [master]
jobs:
validate_podspec:
name: Run pod lib lint
runs-on: macos-latest
steps:
- uses: actions/checkout@v2
- name: Run pod lib lint
run: pod lib lint --allow-warnings --verbose
.github/workflows/compatibility_tests.yml
+19
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@@ -0,0 +1,19 @@
name: Compatibility tests
on:
push:
branches: [master]
pull_request:
branches: [master]
schedule:
- cron: "0 9 * * 1" # Every Monday at 9:00 AM
jobs:
compatibility_tests_macos:
name: Execute compatibility tests
runs-on: macos-latest
steps:
- uses: actions/checkout@v2
- name: Run tests against Apple's Combine
run: make test-compatibility
.github/workflows/macos.yml
+130
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@@ -0,0 +1,130 @@
name: macOS
on:
push:
branches: [master]
pull_request:
branches: [master]
jobs:
# This job is not a part of the macos_test job because of
# the 'This copy of libswiftCore.dylib requires an OS version prior to 10.14.4.' error.
# We have to invoke install_name_tool and patch the test executable
# to work around this error.
#
# Other combinations of Xcode and macOS versions don't lead to this error.
swift_5_0_test:
name: Execute tests (macos-10.15, 10.3)
runs-on: macos-10.15
steps:
- uses: actions/checkout@v2
- name: Setup Xcode
uses: maxim-lobanov/setup-xcode@v1
with:
xcode-version: "10.3"
- name: Swift version
run: swift --version
- name: Build and run tests in debug mode with coverage
run: |
swift build \
--build-tests \
-c debug \
-Xswiftc -warnings-as-errors \
-Xswiftc -profile-generate \
-Xswiftc -profile-coverage-mapping \
--build-path .build-test-debug
install_name_tool \
-rpath /Applications/Xcode_10.3.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/lib/swift/macosx /usr/lib/swift \
.build-test-debug/debug/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests
install_name_tool \
-add_rpath /Applications/Xcode_10.3.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/lib/swift/macosx \
.build-test-debug/debug/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests
swift test \
--skip-build \
--enable-code-coverage \
--build-path .build-test-debug
xcrun llvm-cov show \
-instr-profile=.build-test-debug/debug/codecov/default.profdata \
.build-test-debug/debug/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests \
> coverage.txt
- name: Build and run tests in release mode
run: |
swift build \
--build-tests \
-c release \
-Xswiftc -warnings-as-errors \
-Xswiftc -profile-generate \
-Xswiftc -profile-coverage-mapping \
--build-path .build-test-release
install_name_tool \
-rpath /Applications/Xcode_10.3.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/lib/swift/macosx /usr/lib/swift \
.build-test-release/release/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests
install_name_tool \
-add_rpath /Applications/Xcode_10.3.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/lib/swift/macosx \
.build-test-release/release/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests
swift test \
--skip-build \
-c release \
--enable-code-coverage \
--build-path .build-test-release
- uses: codecov/codecov-action@v2
with:
verbose: true
macos_test:
name: Execute tests
strategy:
fail-fast: false
matrix:
include:
- os: macos-10.15
xcode-version: "11.3.1" # Swift 5.1.3
- os: macos-10.15
xcode-version: "11.7" # Swift 5.2.4
- os: macos-11
xcode-version: "12.4" # Swift 5.3.2
- os: macos-11
xcode-version: "12.5.1" # Swift 5.4.2
- os: macos-11
xcode-version: "13.2.1" # Swift 5.5.2
- os: macos-12
xcode-version: "13.4.1" # Swift 5.6.1
- os: macos-12
xcode-version: "14.2" # Swift 5.7.2
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
- name: Setup Xcode
uses: maxim-lobanov/setup-xcode@v1
with:
xcode-version: ${{ matrix.xcode-version }}
- name: Swift version
run: swift --version
- name: Build and run tests in debug mode with coverage
run: |
swift test \
-c debug \
-Xswiftc -warnings-as-errors \
--enable-code-coverage \
--build-path .build-test-debug
xcrun llvm-cov show \
-instr-profile=.build-test-debug/debug/codecov/default.profdata \
.build-test-debug/debug/OpenCombinePackageTests.xctest/Contents/MacOS/OpenCombinePackageTests \
> coverage.txt
- name: Build and run tests in debug mode with TSan
if: ${{ matrix.xcode-version != '13.2.1' && matrix.xcode-version != '13.4.1' }} # https://bugs.swift.org/browse/SR-15444
run: |
swift test \
-c debug \
--sanitize thread \
-Xswiftc -warnings-as-errors \
--build-path .build-test-debug-sanitize-thread
- name: Build and run tests in release mode
run: |
swift test \
-c release \
-Xswiftc -warnings-as-errors \
--enable-code-coverage \
--build-path .build-test-release
- uses: codecov/codecov-action@v2
with:
verbose: true
.github/workflows/swiftlint.yml
+26
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@@ -0,0 +1,26 @@
name: SwiftLint
on:
pull_request:
paths:
- ".github/workflows/swiftlint.yml"
- ".swiftlint.yml"
- "**/*.swift"
jobs:
SwiftLint:
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v1
# Fetch current versions of files
- name: Fetch base ref
run: |
git fetch --prune --no-tags --depth=1 origin +refs/heads/${{ github.base_ref }}:refs/heads/${{ github.base_ref }}
# Diff pull request to current files, then SwiftLint changed files
- name: GitHub Action for SwiftLint
uses: mayk-it/action-swiftlint@3.2.2
env:
DIFF_BASE: ${{ github.base_ref }}
DIFF_HEAD: HEAD
with:
args: --strict
.github/workflows/ubuntu.yml
+57
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@@ -0,0 +1,57 @@
name: Ubuntu
on:
push:
branches: [master]
pull_request:
branches: [master]
jobs:
ubuntu_test:
name: Execute tests on Ubuntu
strategy:
fail-fast: false
matrix:
swift_version: ["5.0", "5.1", "5.2", "5.3", "5.4", "5.5", "5.6", "5.7"]
runs-on: ubuntu-latest
container: swift:${{ matrix.swift_version }}-bionic
steps:
- uses: actions/checkout@v2
- name: Generating LinuxMain.swift
if: >-
${{ matrix.swift_version == '5.0' ||
matrix.swift_version == '5.1' ||
matrix.swift_version == '5.2' ||
matrix.swift_version == '5.3' }}
run: |
apt update -y
apt upgrade -y
apt install -y python3.8
python3.8 utils/discover_tests.py
- name: Building and running tests in debug mode with coverage
run: |
swift test \
-c debug \
-Xswiftc -warnings-as-errors \
--enable-code-coverage \
--build-path .build-test-debug
llvm-cov show \
-instr-profile=.build-test-debug/debug/codecov/default.profdata \
.build-test-debug/debug/OpenCombinePackageTests.xctest \
> coverage.txt
- name: Building and running tests in debug mode with TSan
if: ${{ matrix.swift_version != '5.0' }} # There are false positives there
run: |
swift test \
-c debug \
--sanitize thread \
--build-path .build-test-debug-sanitize-thread
- name: Building and running tests in release mode
run: |
swift test \
-c release \
-Xswiftc -warnings-as-errors \
--build-path .build-test-release
- uses: codecov/codecov-action@v2
with:
verbose: true
.github/workflows/wasm.yml
+48
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@@ -0,0 +1,48 @@
name: Wasm
on:
push:
branches: [master]
pull_request:
branches: [master]
jobs:
carton_wasmer_test_5_3:
name: "Execute tests on Wasm (Swift 5.3)"
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: swiftwasm/swiftwasm-action@v5.3
carton_wasmer_test_5_4:
name: "Execute tests on Wasm (Swift 5.4)"
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: swiftwasm/swiftwasm-action@v5.4
carton_wasmer_test_5_5:
name: "Execute tests on Wasm (Swift 5.5)"
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: swiftwasm/swiftwasm-action@v5.5
carton_wasmer_test_5_6:
name: "Execute tests on Wasm (Swift 5.6)"
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: swiftwasm/swiftwasm-action@v5.6
carton_wasmer_test_5_7:
name: "Execute tests on Wasm (Swift 5.7)"
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: swiftwasm/swiftwasm-action@v5.7
.github/workflows/windows.yml
+32
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@@ -0,0 +1,32 @@
name: Windows
on:
push:
branches: [master]
pull_request:
branches: [master]
jobs:
windows_test:
name: Execute tests on Windows
strategy:
fail-fast: false
matrix:
include:
- os: windows-2019
swift_version: "5.4.2"
- os: windows-2019
swift_version: "5.5.1"
- os: windows-2019
swift_version: "5.6.1"
- os: windows-2019
swift_version: "5.7.2"
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
- uses: compnerd/gha-setup-swift@main
with:
branch: swift-${{ matrix.swift_version }}-release
tag: ${{ matrix.swift_version }}-RELEASE
- name: Building and running tests in debug mode
run: swift test
.gitignore
+1
View File
@@ -3,6 +3,7 @@
/Packages
/*.xcodeproj
/.swiftpm
Tests/LinuxMain.swift
# Created by https://www.gitignore.io/api/Xcode
# Edit at https://www.gitignore.io/?templates=Xcode
.swiftlint.yml
+3
View File
@@ -2,7 +2,10 @@ included:
- Sources
- Tests
child_config: Tests/.swiftlint.yml
disabled_rules:
- blanket_disable_command
- block_based_kvo
- class_delegate_protocol
- colon
CHANGELOG.md
+323
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@@ -0,0 +1,323 @@
# 0.14.0 (23 Apr 2023)
This release is compatible with Xcode 14.2 and Swift 5.7
### Additions
- Primary associated type support for `Publisher`, `Subscriber`, `ConnectablePublisher`, `Subject` and `Scheduler` protocols (#239)
### Bugfixes
- Fixed nullifying the reference to parent in `Future`'s conduit (#239)
# 0.13.0 (1 Feb 2022)
This release is compatible with Xcode 13.2.
### Additions
- Windows support (thank you @MaxDesiatov!)
- `Publishers.Throttle` (#195, thank you @stuaustin)
- `Publishers.PrefixUntilOutput` (#206)
- `Publishers.Zip` (#222, thank you @MaxDesiatov and @ArthurChi)
- `async`/`await` extensions: `Future.value` and `Publisher.values` (#219)
### Bugfixes
- Fixed reentrancy bugs in ` Subscribers.Sink` and `Subscribers.Assign` (#210)
- Fixed lifecycle bugs in `Publishers.Concatenate` (#210)
# 0.12.0 (29 Jan 2021)
This release adds a new `OpenCombineShim` product that will conditionally re-export either
Combine on Apple platforms, or OpenCombine on other platforms. Additionally, `ObservableObject`
protocol is now available and working on all platforms.
A bug with `Timer(timeInterval:repeats:block:)` firing immediately not accounting for the passed
`timeInterval` is fixed.
**Merged pull requests:**
- Fix `Timer(timeInterval:repeats:block:)` not accounting `timeInterval` ([#196](https://github.com/OpenCombine/OpenCombine/pull/196)) via [@grigorye](https://github.com/grigorye)
- Add `OpenCombineShim` product for easier importing ([#197](https://github.com/OpenCombine/OpenCombine/pull/197)) via [@MaxDesiatov](https://github.com/MaxDesiatov)
- Implementation for `ObservableObject` with `Mirror` ([#201](https://github.com/OpenCombine/OpenCombine/pull/201)) via [@kateinoigakukun](https://github.com/kateinoigakukun)
# 0.11.0 (29 Oct 2020)
This release is compatible with Xcode 12.1.
### Additions
- `Publisher.assigned(to:)` method that accepts a `Published.Publisher`.
- New `Publisher.switchToLatest()` overloads.
- New `Publisher.flatMap(maxPublishers:_:)` overloads.
- `Optional.publisher` property.
- New `_Introspection` protocol that allows to track and explore the subscription graph and data flow.
### Bugfixes
- The project should now compile without warnings.
- The following entities have been updated to match the behavior of the newest Combine version:
- `Subscribers.Assign`
- `Publishers.Breakpoint`
- `Publishers.Buffer`
- `CombineIdentifier`
- `Publishers.CompactMap`
- `Publishers.Concatenate`
- `Publishers.Debounce`
- `Publishers.Delay`
- `DispatchQueue.SchedulerTimeType.Stride`
- `Publishers.Drop`
- `Publishers.Encode`
- `Publishers.Decode`
- `Publishers.Filter`
- `Publishers.HandleEvents`
- `Publishers.IgnoreOutput`
- `Publishers.MeasureInterval`
- `OperationQueue` scheduler
- `Published`
- `Publishers.ReceiveOn`
- `Publishers.ReplaceError`
- `RunLoop scheduler`
- `Publishers.Sequence`
- `Subscribers.Sink`
- `Publishers.SubscribeOn`
- `Publishers.Timeout`
- `Timer` publisher
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1 and later.
# 0.10.2 (23 Oct 2020)
### Bugfixes
- Fixed a crash caused by recursive acquisition of a non-recursive lock in SubbjectSubscriber (#186, thanks @stuaustin for the bug report)
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1 and later.
# 0.10.1 (4 Oct 2020)
### Bugfixes
- Fixed build errors on Linux with Swift 5.0 and Swift 5.3 toolchains (thanks, @adamleonard and @devmaximilian)
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1 and later.
# 0.10.0 (28 Jun 2020)
This release is compatible with Xcode 11.5.
### Additions
- `Timer.publish(every:tolerance:on:in:options:)` (#156, thank you @MaxDesiatov)
- `OperationQueue` scheduler (#165)
- `Publishers.Timeout` (#164)
- `Publishers.Debounce` (#133)
### Bugfixes
- `PassthroughSubject`, `CurrentValueSubject` and `Future` have been rewritten from scratch. They are now faster, more correct and no longer leak subscriptions (#170).
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1 and later.
# 0.9.0 (12 Jun 2020)
This release is compatible with Xcode 11.5.
### Additions
- The `Subscribers.Demand` struct can be nicely formatted in LLDB (#146, thank you @mayoff).
- `Publishers.SwitchToLatest` (#142).
- The `RunLoop` scheduler in `OpenCombineFoundation` (#131).
- `Publishers.Catch` and `Publishers.TryCatch` (#140).
### Bugfixes
- Worked around a [bug in the Swift compiler](https://bugs.swift.org/browse/SR-11680) when building the `COpenCombineHelpers` target (#145, thank you @mayoff).
- Improved documentation.
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1 and later.
# 0.8.0 (17 Jan 2020)
This release is compatible with Xcode 11.3.1.
### Additions
- `Publishers.ReplaceEmpty` (#122, thank you @spadafiva)
- `NotificationCenter.Publisher` (#84)
- `URLSession.DataTaskPublisher` (#127)
- `Publishers.DropUntilOutput` (#136)
- `Publishers.CollectByCount` (#137)
- `Publishers.AssertNoFailure` (#138)
- `Publishers.Buffer` (#143)
### Bugfixes
- Fixed integer overflows in `DispatchQueue.SchedulerTimeType.Stride` (#126, #130)
- Fixed the 'default will never be executed' warning on non-Darwin platforms (like Linux) (#129)
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1.
# 0.7.0 (10 Dec 2019)
This release is compatible with Xcode 11.2.1.
### Additions
- `Publishers.Delay` (#114)
- `Publishers.ReceiveOn` (#115)
- `Publishers.SubscribeOn` (#116)
- `Publishers.MeasureInterval` (#117)
- `Publishers.Breakpoint` (#118)
- `Publishers.HandleEvents` (#118)
- `Publishers.Concatenate` (#90)
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1.
# 0.6.0 (26 Nov 2019)
This release is compatible with Xcode 11.2.1.
### Thread safety
- `Publishers.IgnoreOutput` has been audited for thread safety (#88)
- `Publishers.DropWhile` and `Publishers.TryDropWhile` have been audited for thread safety (#87)
### Additions
- `Publishers.Output` (#91)
- `Record` (#100)
- `Publishers.RemoveDuplicates`, `Publishers.TryRemoveDuplicates` (#89)
- `Publishers.PrefixWhile`, `Publishers.TryPrefixWhile` (#89)
- `Future` (#107, thanks @MaxDesiatov!)
### Bugfixes
- The behavior of the `Publishers.Encode` and `Publishers.Decode` subscriptions is fixed (#112)
- The behavior of the `Publishers.IgnoreOutput` subscription is fixed (#88)
- The behavior of the `Publishers.Print` subscription is fixed (#92)
- The behavior of the `Publishers.ReplaceError` subscription is fixed (#89)
- The behavior of the `Publishers.Filter` and `Publishers.TryFilter` subscriptions is fixed (#89)
- The behavior of the `Publishers.CompactMap` and `Publishers.TryCompactMap` subscriptions is fixed (#89)
- The behavior of the `Publishers.Multicast` subscription is fixed (#110)
- `Publishers.FlatMap` is reimplemented from scratch. Its behavior is fixed in many ways, it now fully matches that of Combine (#89)
- `@Published` property wrapper is fixed! (#112)
- The behavior of `DispatchQueue.SchedulerTimeType` is fixed to match that of the latest SDKs (#96)
- OpenCombine is now usable on 32 bit platforms. Why? Because we can.
### Known issues
- The default implementation of the `objectWillChange` requirement of the `ObservableObject` protocol is not available in Swift 5.1.
# 0.5.0 (17 Oct 2019)
This release is compatible with Xcode 11.1.
### Additions
- `Publishers.MapKeyPath` (#71)
- `Publishers.Reduce` (#76)
- `Publishers.TryReduce` (#76)
- `Publishers.Last` (#76)
- `Publishers.LastWhere` (#76)
- `Publishers.TryLastWhere` (#76)
- `Publishers.AllSatisfy` (#76)
- `Publishers.TryAllSatisfy` (#76)
- `Publishers.Contains` (#76)
- `Publishers.ContainsWhere` (#76)
- `Publishers.TryContainsWhere` (#76)
- `Publishers.Collect` (#76)
- `Publishers.Comparison` (#76)
- `Publishers.Drop` (#70, thank you @5sw!)
- `Publishers.Scan` (#83, thank you @epatey!)
- `Publishers.TryScan` (#83, thank you @epatey!)
### Bugfixes
- `Publishers.Print` doesn't print a redundant whitespace anymore.
### Known issues
- `@Published` property wrapper doesn't work yet
# 0.4.0 (8 Oct 2019)
This release is compatible with Xcode 11.1.
### Thread safety
- `SubjectSubscriber` (which is used when you subscribe a subject to a publisher) has been audited for thread-safety
- `Publishers.Multicast` has been audited for thread safety (#63)
- `Publishers.TryMap` has been audited for thread safety
- `Just` has been audited for thread safety
- `Optional.Publisher` has been audited for thread safety
- `Publishers.Sequence` has been audited for thread safety
- `Publishers.ReplaceError` has been audited for thread safety
- `Subscribers.Assign` has been audited for thread safety
- `Subscribers.Sink` has been audited for thread safety
### Bugfixes
- The semantics of `Publishers.Print`, `Publishers.TryMap` have been fixed
- Fix `iterator.next()` being called twice in `Publishers.Sequence` (#62)
- The default initializer of `CombineIdentifier` (the one that takes no arguments) is now much faster (#66, #69)
- When `Publishers.Sequence` subscription is cancelled while it emits values, the cancellation is respected (#73, thanks @5sw!)
### Additions
- `DispatchQueueScheduler` (#46)
- `Equatable` conformances for `First`, `ReplaceError`
- Added `eraseToAnyPublisher()` method (#59, thanks @evyasafhouzz for reporting!)
- `Publishers.MakeConnectable` (#61)
- `Publishers.Autoconnect` (#60)
- `Publishers.Share` (#60)
### Known issues
- `@Published` property wrapper doesn't work yet
# 0.3.0 (13 Sep 2019)
Among other things this release is compatible with Xcode 11.0 GM seed.
### Bugfixes
- Store newly send value in internal variable inside CurrentValueObject (#39, thanks @FranzBusch!)
### Additions
- `Filter`/`TryFilter` (#22, thanks @spadafiva!)
- `First`/`FirstWhere`/`TryFirstWhere` (#22, thanks again @spadafiva!)
- `CompactMap`/`TryCompacrMap` (#32)
- `IgnoreOutput` (#44, thanks @epatey!)
- `ReplaceError` (#50, thanks @vladiulianbogdan!)
- `FlatMap` (#45, thanks again @epatey!)
### Known issues
- `@Published` property wrapper doesn't work yet
# 0.2.0 (31 Jul 2019)
Updated for the newest Xcode 11.0 beta 5
# 0.1.0 (4 Jul 2019)
The first pre-pre-pre-alpha release is here!
Lots of stuff still unimplemented.
For now we have:
- `Just`
- `Publishers.Decode`
- `Publishers.DropWhile`
- `Publishers.Empty`
- `Publishers.Encode`
- `Publishers.Fail`
- `Publishers.Map`
- `Publishers.Multicast`
- `Publishers.Once`
- `Publishers.Optional`
- `Publishers.Print`
- `Publishers.Sequence`
- `Subscribers.Assign`
- `Subscribers.Completion`
- `Subscribers.Demand`
- `Subscribers.Sink`
- `AnyCancellable`
- `AnyPublisher`
- `AnySubject`
- `AnySubscriber`
- `Cancellable`
- `CombineIdentifier`
- `ConnectablePublisher`
- `CurrentValueSubject`
- `CustomCombineIdentifierConvertible`
- `ImmediateScheduler`
- `PassthroughSubject`
- `Publisher`
- `Result`
- `Scheduler`
- `Subject`
- `Subscriber`
- `Subscription`
CONTRIBUTING.md
+60
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@@ -0,0 +1,60 @@
# Contributing
In order to work on this project you will need Xcode 10.2 and Swift 5.0 or later.
Please refer to the [issue #1](https://github.com/OpenCombine/OpenCombine/issues/1) for the list of operators that remain unimplemented, as well as the [RemainingCombineInterface.swift](https://github.com/OpenCombine/OpenCombine/blob/master/RemainingCombineInterface.swift) file. The latter contains the generated interface of Apple's Combine from the latest Xcode version. When the functionality is implemented in OpenCombine, it should be removed from the RemainingCombineInterface.swift file.
You can refer to [this repo](https://github.com/OpenCombine/combine-interfaces) to observe Apple's Combine API and documentation changes between different Xcode (beta) versions.
You can run compatibility tests against Apple's Combine. In order to do that you will need either macOS 10.14 with iOS 13 simulator installed (since the only way we can get Apple's Combine on macOS 10.14 is using the simulator), or macOS 10.15 (Apple's Combine is bundled with the OS). Execute the following command from the root of the package:
```
$ make test-compatibility
```
Or enable the `-DOPENCOMBINE_COMPATIBILITY_TEST` compiler flag in Xcode's build settings. Note that on iOS only the latter will work.
> NOTE: Before starting to work on some feature, please consult the [GitHub project](https://github.com/OpenCombine/OpenCombine/projects/2) to make sure that nobody's already making progress on the same feature! If not, then please create a draft PR to indicate that you're beginning your work.
#### Releasing a new version
1. Create a new branch from master and call it `release/<major>.<minor>.<patch>`.
1. Replace the usages of the old version in `README.md` with the new version (make sure to check the [Swift Package Manager](#swift-package-manager) and [CocoaPods](#cocoapods) sections).
1. Bump the version in `OpenCombine.podspec`, `OpenCombineDispatch.podspec` and `OpenCombineFoundation.podspec`. In the latter two you will also need to set the `spec.dependency "OpenCombine"` property to the **previous** version. Why? Because otherwise the `pod lib lint` command that we run on our regular CI will fail when validating the `OpenCombineDispatch` and `OpenCombineFoundation` podspecs, since the dependencies are not yet in the trunk. If we set the dependencies to the previous version (which is already in the trunk), everything will be fine. This is purely to make the CI work. The clients will not experience any issues, since the version is specified as `>=`.
1. Create a pull request to master for the release branch and make sure the CI passes.
1. Merge the pull request.
1. In the GitHub web interface on the [releases](https://github.com/OpenCombine/OpenCombine/releases) page, click the **Draft a new release** button.
1. The **Tag version** and **Release title** fields should be filled with the version number.
1. The description of the release should be consistent with the previous releases. It is a good practice to divide the description into several sections: additions, bugfixes, known issues etc. Also, be sure to mention the nicknames of the contributors of the new release.
1. Publish the release.
1. Switch to the master branch and pull the changes.
1. Push the release to CocoaPods trunk. For that, execute the following commands:
```
pod trunk push OpenCombine.podspec --verbose --allow-warnings
pod trunk push OpenCombineDispatch.podspec --verbose --allow-warnings
pod trunk push OpenCombineFoundation.podspec --verbose --allow-warnings
```
Note that you need to be one of the owners of the pod for that.
#### GYB
Some publishers in OpenCombine (like `Publishers.MapKeyPath`, `Publishers.Merge`) exist in several
different flavors in order to support several arities. For example, there are also `Publishers.MapKeyPath2`
and `Publishers.MapKeyPath3`, which are very similar but different enough that Swift's type system
can't help us here (because there's no support for variadic generics). Maintaining multiple instances of
those generic types is tedious and error-prone (they can get out of sync), so we use the GYB tool for
generating those instances from a template.
GYB is a Python script that evaluates Python code written inside a template file, so it's very flexible —
templates can be arbitrarily complex. There is a good article about GYB on
[NSHipster](https://nshipster.com/swift-gyb/).
GYB is part of the [Swift Open Source Project](https://github.com/apple/swift/blob/master/utils/gyb.py)
and can be distributed under the same license as Swift itself.
GYB template files have the `.gyb` extension. Run `make gyb` to generate Swift code from those
templates. The generated files are prefixed with `GENERATED-` and are checked into source control. Those
files should never be edited directly. Instead, the `.gyb` template should be edited, and after that the files
should be regenerated using `make gyb`.
Dangerfile.swift
-76
View File
@@ -1,76 +0,0 @@
import Danger
import Foundation
extension StringProtocol {
func dropSuffix<S: StringProtocol>(_ suffix: S) -> SubSequence {
if hasSuffix(suffix) {
return self[..<index(endIndex, offsetBy: -suffix.count)]
} else {
return self[...]
}
}
func directoryAndFileName() -> (SubSequence, SubSequence) {
let lastPathSeparator = lastIndex(of: "/")
if let lastPathSeparator = lastPathSeparator {
return (self[..<lastPathSeparator], self[index(after: lastPathSeparator)...])
} else {
return (".", self[...])
}
}
}
let danger = Danger()
let allCreatedAndModified = danger.git.createdFiles + danger.git.modifiedFiles
do {
// Fail if the committer modified a GYB template but forgot to run `make gyb`.
let modifiedTemplates = allCreatedAndModified.filter { $0.hasSuffix(".gyb") }
for modifiedTemplate in modifiedTemplates {
let (directory, filename) = modifiedTemplate.directoryAndFileName()
let generated = "\(directory)/GENERATED-\(filename.dropSuffix(".gyb"))"
if !allCreatedAndModified.contains(generated) {
fail("""
A template \(modifiedTemplate) was modified, but the file \(generated) \
was not regenerated.
Run `make gyb` from the root of the project and commit the changes.
""")
}
}
}
do {
// Fail if the committer modified a generated file.
// A template should be modified instead.
for modifiedGeneratedFile in danger.git.modifiedFiles
where modifiedGeneratedFile.contains("GENERATED-")
{
let template = modifiedGeneratedFile
.replacingOccurrences(of: "GENERATED-", with: "") + ".gyb"
if !danger.git.modifiedFiles.contains(template) {
fail("""
A generated file \(modifiedGeneratedFile) was modified, but \
the template it was generated from was not modified.
Please modify the template \(template) instead, \
run `make gyb` from the root of the project and commit the changes.
""")
}
}
}
SwiftLint.lint(inline: true,
configFile: ".swiftlint.yml",
strict: true,
lintAllFiles: true)
if danger.warnings.isEmpty, danger.fails.isEmpty {
markdown("LGTM")
}
Gemfile
-3
View File
@@ -1,3 +0,0 @@
source 'https://rubygems.org'
gem 'xcode-install'
Gemfile.lock
-162
View File
@@ -1,162 +0,0 @@
GEM
remote: https://rubygems.org/
specs:
CFPropertyList (3.0.1)
addressable (2.7.0)
public_suffix (>= 2.0.2, < 5.0)
atomos (0.1.3)
babosa (1.0.3)
claide (1.0.3)
colored (1.2)
colored2 (3.1.2)
commander-fastlane (4.4.6)
highline (~> 1.7.2)
declarative (0.0.10)
declarative-option (0.1.0)
digest-crc (0.4.1)
domain_name (0.5.20190701)
unf (>= 0.0.5, < 1.0.0)
dotenv (2.7.5)
emoji_regex (1.0.1)
excon (0.71.0)
faraday (0.17.0)
multipart-post (>= 1.2, < 3)
faraday-cookie_jar (0.0.6)
faraday (>= 0.7.4)
http-cookie (~> 1.0.0)
faraday_middleware (0.13.1)
faraday (>= 0.7.4, < 1.0)
fastimage (2.1.7)
fastlane (2.134.0)
CFPropertyList (>= 2.3, < 4.0.0)
addressable (>= 2.3, < 3.0.0)
babosa (>= 1.0.2, < 2.0.0)
bundler (>= 1.12.0, < 3.0.0)
colored
commander-fastlane (>= 4.4.6, < 5.0.0)
dotenv (>= 2.1.1, < 3.0.0)
emoji_regex (>= 0.1, < 2.0)
excon (>= 0.45.0, < 1.0.0)
faraday (~> 0.17)
faraday-cookie_jar (~> 0.0.6)
faraday_middleware (~> 0.13.1)
fastimage (>= 2.1.0, < 3.0.0)
gh_inspector (>= 1.1.2, < 2.0.0)
google-api-client (>= 0.21.2, < 0.24.0)
google-cloud-storage (>= 1.15.0, < 2.0.0)
highline (>= 1.7.2, < 2.0.0)
json (< 3.0.0)
jwt (~> 2.1.0)
mini_magick (>= 4.9.4, < 5.0.0)
multi_xml (~> 0.5)
multipart-post (~> 2.0.0)
plist (>= 3.1.0, < 4.0.0)
public_suffix (~> 2.0.0)
rubyzip (>= 1.3.0, < 2.0.0)
security (= 0.1.3)
simctl (~> 1.6.3)
slack-notifier (>= 2.0.0, < 3.0.0)
terminal-notifier (>= 2.0.0, < 3.0.0)
terminal-table (>= 1.4.5, < 2.0.0)
tty-screen (>= 0.6.3, < 1.0.0)
tty-spinner (>= 0.8.0, < 1.0.0)
word_wrap (~> 1.0.0)
xcodeproj (>= 1.8.1, < 2.0.0)
xcpretty (~> 0.3.0)
xcpretty-travis-formatter (>= 0.0.3)
gh_inspector (1.1.3)
google-api-client (0.23.9)
addressable (~> 2.5, >= 2.5.1)
googleauth (>= 0.5, < 0.7.0)
httpclient (>= 2.8.1, < 3.0)
mime-types (~> 3.0)
representable (~> 3.0)
retriable (>= 2.0, < 4.0)
signet (~> 0.9)
google-cloud-core (1.3.2)
google-cloud-env (~> 1.0)
google-cloud-env (1.2.1)
faraday (~> 0.11)
google-cloud-storage (1.16.0)
digest-crc (~> 0.4)
google-api-client (~> 0.23)
google-cloud-core (~> 1.2)
googleauth (>= 0.6.2, < 0.10.0)
googleauth (0.6.7)
faraday (~> 0.12)
jwt (>= 1.4, < 3.0)
memoist (~> 0.16)
multi_json (~> 1.11)
os (>= 0.9, < 2.0)
signet (~> 0.7)
highline (1.7.10)
http-cookie (1.0.3)
domain_name (~> 0.5)
httpclient (2.8.3)
json (2.3.1)
jwt (2.1.0)
memoist (0.16.1)
mime-types (3.3)
mime-types-data (~> 3.2015)
mime-types-data (3.2019.1009)
mini_magick (4.9.5)
multi_json (1.14.1)
multi_xml (0.6.0)
multipart-post (2.0.0)
nanaimo (0.2.6)
naturally (2.2.0)
os (1.0.1)
plist (3.5.0)
public_suffix (2.0.5)
representable (3.0.4)
declarative (< 0.1.0)
declarative-option (< 0.2.0)
uber (< 0.2.0)
retriable (3.1.2)
rouge (2.0.7)
rubyzip (1.3.0)
security (0.1.3)
signet (0.11.0)
addressable (~> 2.3)
faraday (~> 0.9)
jwt (>= 1.5, < 3.0)
multi_json (~> 1.10)
simctl (1.6.6)
CFPropertyList
naturally
slack-notifier (2.3.2)
terminal-notifier (2.0.0)
terminal-table (1.8.0)
unicode-display_width (~> 1.1, >= 1.1.1)
tty-cursor (0.7.0)
tty-screen (0.7.0)
tty-spinner (0.9.1)
tty-cursor (~> 0.7)
uber (0.1.0)
unf (0.1.4)
unf_ext
unf_ext (0.0.7.6)
unicode-display_width (1.6.0)
word_wrap (1.0.0)
xcode-install (2.6.2)
claide (>= 0.9.1, < 1.1.0)
fastlane (>= 2.1.0, < 3.0.0)
xcodeproj (1.13.0)
CFPropertyList (>= 2.3.3, < 4.0)
atomos (~> 0.1.3)
claide (>= 1.0.2, < 2.0)
colored2 (~> 3.1)
nanaimo (~> 0.2.6)
xcpretty (0.3.0)
rouge (~> 2.0.7)
xcpretty-travis-formatter (1.0.0)
xcpretty (~> 0.2, >= 0.0.7)
PLATFORMS
ruby
DEPENDENCIES
xcode-install
BUNDLED WITH
2.0.1
OpenCombine.podspec
+3 -3
View File
@@ -1,17 +1,17 @@
Pod::Spec.new do |spec|
spec.name = "OpenCombine"
spec.version = "0.10.1"
spec.version = "0.14.0"
spec.summary = "Open source implementation of Apple's Combine framework for processing values over time."
spec.description = <<-DESC
An open source implementation of Apple's Combine framework for processing values over time.
DESC
spec.homepage = "https://github.com/broadwaylamb/OpenCombine/"
spec.homepage = "https://github.com/OpenCombine/OpenCombine/"
spec.license = "MIT"
spec.authors = { "Sergej Jaskiewicz" => "jaskiewiczs@icloud.com" }
spec.source = { :git => "https://github.com/broadwaylamb/OpenCombine.git", :tag => "#{spec.version}" }
spec.source = { :git => "https://github.com/OpenCombine/OpenCombine.git", :tag => "#{spec.version}" }
spec.swift_version = "5.0"
OpenCombineDispatch.podspec
+4 -4
View File
@@ -1,17 +1,17 @@
Pod::Spec.new do |spec|
spec.name = "OpenCombineDispatch"
spec.version = "0.10.1"
spec.version = "0.14.0"
spec.summary = "OpenCombine + Dispatch interoperability"
spec.description = <<-DESC
Extends `DispatchQueue` with conformance to the `Scheduler` protocol
DESC
spec.homepage = "https://github.com/broadwaylamb/OpenCombine/"
spec.homepage = "https://github.com/OpenCombine/OpenCombine/"
spec.license = "MIT"
spec.authors = { "Sergej Jaskiewicz" => "jaskiewiczs@icloud.com" }
spec.source = { :git => "https://github.com/broadwaylamb/OpenCombine.git", :tag => "#{spec.version}" }
spec.source = { :git => "https://github.com/OpenCombine/OpenCombine.git", :tag => "#{spec.version}" }
spec.swift_version = "5.0"
@@ -21,5 +21,5 @@ Pod::Spec.new do |spec|
spec.tvos.deployment_target = "9.0"
spec.source_files = "Sources/OpenCombineDispatch/**/*.swift"
spec.dependency "OpenCombine", '>= 0.9'
spec.dependency "OpenCombine", '>= 0.13.0'
end
OpenCombineFoundation.podspec
+4 -4
View File
@@ -1,17 +1,17 @@
Pod::Spec.new do |spec|
spec.name = "OpenCombineFoundation"
spec.version = "0.10.1"
spec.version = "0.14.0"
spec.summary = "OpenCombine + OpenCombineFoundation interoperability"
spec.description = <<-DESC
Adds publishers to Foundation types like NotificationCenter, URLSession etc.
DESC
spec.homepage = "https://github.com/broadwaylamb/OpenCombine/"
spec.homepage = "https://github.com/OpenCombine/OpenCombine/"
spec.license = "MIT"
spec.authors = { "Sergej Jaskiewicz" => "jaskiewiczs@icloud.com" }
spec.source = { :git => "https://github.com/broadwaylamb/OpenCombine.git", :tag => "#{spec.version}" }
spec.source = { :git => "https://github.com/OpenCombine/OpenCombine.git", :tag => "#{spec.version}" }
spec.swift_version = "5.0"
@@ -21,5 +21,5 @@ Pod::Spec.new do |spec|
spec.tvos.deployment_target = "9.0"
spec.source_files = "Sources/OpenCombineFoundation/**/*.swift"
spec.dependency "OpenCombine", '>= 0.9'
spec.dependency "OpenCombine", '>= 0.13.0'
end
Package.swift
+73 -10
View File
@@ -1,25 +1,88 @@
// swift-tools-version:5.0
// swift-tools-version:5.5
import PackageDescription
// This list should be updated whenever SwiftPM adds support for a new platform.
// See: https://bugs.swift.org/browse/SR-13814
let supportedPlatforms: [Platform] = [
.macOS,
.macCatalyst,
.iOS,
.watchOS,
.tvOS,
.driverKit,
.linux,
.android,
.windows,
.wasi,
]
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(name: "OpenCombine", dependencies: ["COpenCombineHelpers"]),
.target(
name: "OpenCombine",
dependencies: [
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
],
exclude: [
"RootProtocols.swift.gyb",
"Concurrency/Publisher+Concurrency.swift.gyb",
"Publishers/Publishers.Encode.swift.gyb",
"Publishers/Publishers.MapKeyPath.swift.gyb",
"Publishers/Publishers.Catch.swift.gyb"
],
swiftSettings: [.define("WASI", .when(platforms: [.wasi]))]
),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(name: "OpenCombineFoundation", dependencies: ["OpenCombine",
"COpenCombineHelpers"]),
.testTarget(name: "OpenCombineTests",
dependencies: ["OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation"],
swiftSettings: [.unsafeFlags(["-enable-testing"])])
.target(
name: "OpenCombineFoundation",
dependencies: [
"OpenCombine",
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.testTarget(
name: "OpenCombineTests",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
],
swiftSettings: [
.unsafeFlags(["-enable-testing"]),
.define("WASI", .when(platforms: [.wasi]))
]
)
],
cxxLanguageStandard: .cxx1z
cxxLanguageStandard: .cxx17
)
// MARK: Helpers
extension Array where Element == Platform {
func except(_ exceptions: [Platform]) -> [Platform] {
return filter { !exceptions.contains($0) }
}
}
Package@swift-5.0.swift
+34
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@@ -0,0 +1,34 @@
// swift-tools-version:5.0
import PackageDescription
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(name: "OpenCombine", dependencies: ["COpenCombineHelpers"]),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(name: "OpenCombineFoundation", dependencies: ["OpenCombine",
"COpenCombineHelpers"]),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation",
]
),
.testTarget(name: "OpenCombineTests",
dependencies: ["OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation"],
swiftSettings: [.unsafeFlags(["-enable-testing"])])
],
cxxLanguageStandard: .cxx1z
)
Package@swift-5.1.swift
+34
View File
@@ -0,0 +1,34 @@
// swift-tools-version:5.1
import PackageDescription
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(name: "OpenCombine", dependencies: ["COpenCombineHelpers"]),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(name: "OpenCombineFoundation", dependencies: ["OpenCombine",
"COpenCombineHelpers"]),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation",
]
),
.testTarget(name: "OpenCombineTests",
dependencies: ["OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation"],
swiftSettings: [.unsafeFlags(["-enable-testing"])])
],
cxxLanguageStandard: .cxx1z
)
Package@swift-5.2.swift
+34
View File
@@ -0,0 +1,34 @@
// swift-tools-version:5.2
import PackageDescription
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(name: "OpenCombine", dependencies: ["COpenCombineHelpers"]),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(name: "OpenCombineFoundation", dependencies: ["OpenCombine",
"COpenCombineHelpers"]),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation",
]
),
.testTarget(name: "OpenCombineTests",
dependencies: ["OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation"],
swiftSettings: [.unsafeFlags(["-enable-testing"])])
],
cxxLanguageStandard: .cxx1z
)
Package@swift-5.3.swift
+91
View File
@@ -0,0 +1,91 @@
// swift-tools-version:5.3
import PackageDescription
// This list should be updated whenever SwiftPM adds support for a new platform.
// See: https://bugs.swift.org/browse/SR-13814
let supportedPlatforms: [Platform] = [
.macOS,
.iOS,
.watchOS,
.tvOS,
.linux,
.android,
// Disable Windows because of https://bugs.swift.org/browse/SR-13817
// .windows,
.wasi,
]
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(
name: "OpenCombine",
dependencies: [
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
],
exclude: [
"RootProtocols.swift.gyb",
"Concurrency/Publisher+Concurrency.swift.gyb",
"Publishers/Publishers.Encode.swift.gyb",
"Publishers/Publishers.MapKeyPath.swift.gyb",
"Publishers/Publishers.Catch.swift.gyb"
],
swiftSettings: [.define("WASI", .when(platforms: [.wasi]))]
),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(
name: "OpenCombineFoundation",
dependencies: [
"OpenCombine",
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.testTarget(
name: "OpenCombineTests",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
],
swiftSettings: [
.unsafeFlags(["-enable-testing"]),
.define("WASI", .when(platforms: [.wasi]))
]
)
],
cxxLanguageStandard: .cxx1z
)
// MARK: Helpers
extension Array where Element == Platform {
func except(_ exceptions: [Platform]) -> [Platform] {
// See: https://bugs.swift.org/browse/SR-13813
let exceptionsDescriptions = exceptions.map(String.init(describing:))
return filter { platform in
!exceptionsDescriptions.contains(String(describing: platform))
}
}
}
Package@swift-5.4.swift
+86
View File
@@ -0,0 +1,86 @@
// swift-tools-version:5.4
import PackageDescription
// This list should be updated whenever SwiftPM adds support for a new platform.
// See: https://bugs.swift.org/browse/SR-13814
let supportedPlatforms: [Platform] = [
.macOS,
.iOS,
.watchOS,
.tvOS,
.linux,
.android,
.windows,
.wasi,
]
let package = Package(
name: "OpenCombine",
products: [
.library(name: "OpenCombine", targets: ["OpenCombine"]),
.library(name: "OpenCombineDispatch", targets: ["OpenCombineDispatch"]),
.library(name: "OpenCombineFoundation", targets: ["OpenCombineFoundation"]),
.library(name: "OpenCombineShim", targets: ["OpenCombineShim"]),
],
targets: [
.target(name: "COpenCombineHelpers"),
.target(
name: "OpenCombine",
dependencies: [
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
],
exclude: [
"RootProtocols.swift.gyb",
"Concurrency/Publisher+Concurrency.swift.gyb",
"Publishers/Publishers.Encode.swift.gyb",
"Publishers/Publishers.MapKeyPath.swift.gyb",
"Publishers/Publishers.Catch.swift.gyb"
],
swiftSettings: [.define("WASI", .when(platforms: [.wasi]))]
),
.target(name: "OpenCombineDispatch", dependencies: ["OpenCombine"]),
.target(
name: "OpenCombineFoundation",
dependencies: [
"OpenCombine",
.target(name: "COpenCombineHelpers",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.target(
name: "OpenCombineShim",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi])))
]
),
.testTarget(
name: "OpenCombineTests",
dependencies: [
"OpenCombine",
.target(name: "OpenCombineDispatch",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
.target(name: "OpenCombineFoundation",
condition: .when(platforms: supportedPlatforms.except([.wasi]))),
],
swiftSettings: [
.unsafeFlags(["-enable-testing"]),
.define("WASI", .when(platforms: [.wasi]))
]
)
],
cxxLanguageStandard: .cxx17
)
// MARK: Helpers
extension Array where Element == Platform {
func except(_ exceptions: [Platform]) -> [Platform] {
return filter { !exceptions.contains($0) }
}
}
README.md
+34 -77
View File
@@ -1,39 +1,53 @@
# OpenCombine
[![OpenCombine](https://circleci.com/gh/OpenCombine/OpenCombine.svg?style=svg)](https://circleci.com/gh/OpenCombine/OpenCombine)
[![codecov](https://codecov.io/gh/OpenCombine/OpenCombine/branch/master/graph/badge.svg)](https://codecov.io/gh/OpenCombine/OpenCombine)
![Language](https://img.shields.io/badge/Swift-5.0-orange.svg)
![Platform](https://img.shields.io/badge/platform-Linux%20%7C%20macOS%20%7C%20iOS%20%7C%20watchOS%20%7C%20tvOS-lightgrey.svg)
![Cocoapods](https://img.shields.io/cocoapods/v/OpenCombine?color=blue)
[<img src="https://img.shields.io/badge/slack-OpenCombine-yellow.svg?logo=slack">](https://join.slack.com/t/opencombine/shared_invite/enQtNzE2MjE5NzkxODI0LTYxMjkzNDUxZWViZWI1Njc2YjBhODgxNjRjOTdkZTcxOGU2ZjJjZjYxMGI3NWZkN2RkNGFmZTUzNmU3MGE2ZWM)
[![Cocoapods](https://img.shields.io/cocoapods/v/OpenCombine?color=blue)](https://cocoapods.org/pods/OpenCombine)
Open-source implementation of Apple's [Combine](https://developer.apple.com/documentation/combine) framework for processing values over time.
The main goal of this project is to provide a compatible, reliable and efficient implementation which can be used on Apple's operating systems before macOS 10.15 and iOS 13, as well as Linux and Windows.
The main goal of this project is to provide a compatible, reliable and efficient implementation which can be used on Apple's operating systems before macOS 10.15 and iOS 13, as well as Linux, Windows and WebAssembly.
| **CI Status** |
|---|
|[![Compatibility tests](https://github.com/OpenCombine/OpenCombine/actions/workflows/compatibility_tests.yml/badge.svg)](https://github.com/OpenCombine/OpenCombine/actions/workflows/compatibility_tests.yml)|
|[![macOS](https://github.com/OpenCombine/OpenCombine/actions/workflows/macos.yml/badge.svg)](https://github.com/OpenCombine/OpenCombine/actions/workflows/macos.yml)|
|[![Ubuntu](https://github.com/OpenCombine/OpenCombine/actions/workflows/ubuntu.yml/badge.svg)](https://github.com/OpenCombine/OpenCombine/actions/workflows/ubuntu.yml)|
|[![Windows](https://github.com/OpenCombine/OpenCombine/actions/workflows/windows.yml/badge.svg)](https://github.com/OpenCombine/OpenCombine/actions/workflows/windows.yml)|
|[![Wasm](https://github.com/OpenCombine/OpenCombine/actions/workflows/wasm.yml/badge.svg)](https://github.com/OpenCombine/OpenCombine/actions/workflows/wasm.yml)|
The project is in early development.
### Installation
`OpenCombine` contains three public targets: `OpenCombine`, `OpenCombineFoundation` and `OpenCombineDispatch` (the fourth one, `COpenCombineHelpers`, is considered private. Don't import it in your projects).
OpenCombine itself does not have any dependencies. Not even Foundation or Dispatch. If you want to use OpenCombine with Dispatch (for example for using `DispatchQueue` as `Scheduler` for operators like `debounce`, `receive(on:)` etc.), you will need to import both `OpenCombine` and `OpenCombineDispatch`. The same applies to Foundation: if you want to use, for instance, `NotificationCenter` or `URLSession` publishers, you'll need to also import `OpenCombineFoundation`
OpenCombine itself does not have any dependencies. Not even Foundation or Dispatch. If you want to use OpenCombine with Dispatch (for example for using `DispatchQueue` as `Scheduler` for operators like `debounce`, `receive(on:)` etc.), you will need to import both `OpenCombine` and `OpenCombineDispatch`. The same applies to Foundation: if you want to use, for instance, `NotificationCenter` or `URLSession` publishers, you'll need to also import `OpenCombineFoundation`.
If you develop code for multiple platforms, you may find it more convenient to import the
`OpenCombineShim` module instead. It conditionally re-exports Combine on Apple platforms (if
available), and all OpenCombine modules on other platforms. You can import `OpenCombineShim` only
when using SwiftPM. It is not currently available for CocoaPods.
##### Swift Package Manager
###### Swift Package
To add `OpenCombine` to your [SPM](https://swift.org/package-manager/) package, add the `OpenCombine` package to the list of package and target dependencies in your `Package.swift` file.
To add `OpenCombine` to your [SwiftPM](https://swift.org/package-manager/) package, add the `OpenCombine` package to the list of package and target dependencies in your `Package.swift` file. `OpenCombineDispatch` and `OpenCombineFoundation` products are currently not supported on WebAssembly. If your project targets WebAssembly exclusively, you should omit them from the list of your dependencies. If it targets multiple platforms including WebAssembly, depend on them only on non-WebAssembly platforms with [conditional target dependencies](https://github.com/apple/swift-evolution/blob/main/proposals/0273-swiftpm-conditional-target-dependencies.md).
```swift
dependencies: [
.package(url: "https://github.com/OpenCombine/OpenCombine.git", from: "0.10.1")
.package(url: "https://github.com/OpenCombine/OpenCombine.git", from: "0.14.0")
],
targets: [
.target(name: "MyAwesomePackage", dependencies: ["OpenCombine",
"OpenCombineDispatch",
"OpenCombineFoundation"])
.target(
name: "MyAwesomePackage",
dependencies: [
"OpenCombine",
.product(name: "OpenCombineFoundation", package: "OpenCombine"),
.product(name: "OpenCombineDispatch", package: "OpenCombine")
]
),
]
```
###### Xcode
`OpenCombine` can also be added as a SPM dependency directly in your Xcode project *(requires Xcode 11 upwards)*.
`OpenCombine` can also be added as a SwiftPM dependency directly in your Xcode project *(requires Xcode 11 upwards)*.
To do so, open Xcode, use **File****Swift Packages****Add Package Dependency…**, enter the [repository URL](https://github.com/OpenCombine/OpenCombine.git), choose the latest available version, and activate the checkboxes:
@@ -46,72 +60,11 @@ To do so, open Xcode, use **File** → **Swift Packages** → **Add Package Depe
To add `OpenCombine` to a project using [CocoaPods](https://cocoapods.org/), add `OpenCombine` and `OpenCombineDispatch` to the list of target dependencies in your `Podfile`.
```ruby
pod 'OpenCombine', '~> 0.10.1'
pod 'OpenCombineDispatch', '~> 0.10.1'
pod 'OpenCombineFoundation', '~> 0.10.1'
pod 'OpenCombine', '~> 0.14.0'
pod 'OpenCombineDispatch', '~> 0.14.0'
pod 'OpenCombineFoundation', '~> 0.14.0'
```
### Contributing
In order to work on this project you will need Xcode 10.2 and Swift 5.0 or later.
Please refer to the [issue #1](https://github.com/OpenCombine/OpenCombine/issues/1) for the list of operators that remain unimplemented, as well as the [RemainingCombineInterface.swift](https://github.com/OpenCombine/OpenCombine/blob/master/RemainingCombineInterface.swift) file. The latter contains the generated interface of Apple's Combine from the latest Xcode 11 version. When the functionality is implemented in OpenCombine, it should be removed from the RemainingCombineInterface.swift file.
You can refer to [this repo](https://github.com/OpenCombine/combine-interfaces) to observe Apple's Combine API and documentation changes between different Xcode (beta) versions.
You can run compatibility tests against Apple's Combine. In order to do that you will need either macOS 10.14 with iOS 13 simulator installed (since the only way we can get Apple's Combine on macOS 10.14 is using the simulator), or macOS 10.15 (Apple's Combine is bundled with the OS). Execute the following command from the root of the package:
```
$ make test-compatibility
```
Or enable the `-DOPENCOMBINE_COMPATIBILITY_TEST` compiler flag in Xcode's build settings. Note that on iOS only the latter will work.
> NOTE: Before starting to work on some feature, please consult the [GitHub project](https://github.com/OpenCombine/OpenCombine/projects/2) to make sure that nobody's already making progress on the same feature! If not, then please create a draft PR to indicate that you're beginning your work.
#### Releasing a new version
1. Create a new branch from master and call it `release/<major>.<minor>.<patch>`.
1. Replace the usages of the old version in `README.md` with the new version (make sure to check the [Swift Package Manager](#swift-package-manager) and [CocoaPods](#cocoapods) sections).
1. Bump the version in `OpenCombine.podspec`, `OpenCombineDispatch.podspec` and `OpenCombineFoundation.podspec`. In the latter two you will also need to set the `spec.dependency "OpenCombine"` property to the **previous** version. Why? Because otherwise the `pod lib lint` command that we run on our regular CI will fail when validating the `OpenCombineDispatch` and `OpenCombineFoundation` podspecs, since the dependencies are not yet in the trunk. If we set the dependencies to the previous version (which is already in the trunk), everything will be fine. This is purely to make the CI work. The clients will not experience any issues, since the version is specified as `>=`.
1. Create a pull request to master for the release branch and make sure the CI passes.
1. Merge the pull request.
1. In the GitHub web interface on the [releases](https://github.com/OpenCombine/OpenCombine/releases) page, click the **Draft a new release** button.
1. The **Tag version** and **Release title** fields should be filled with the version number.
1. The description of the release should be consistent with the previous releases. It is a good practice to divide the description into several sections: additions, bugfixes, known issues etc. Also, be sure to mention the nicknames of the contributors of the new release.
1. Publish the release.
1. Switch to the master branch and pull the changes.
1. Push the release to CocoaPods trunk. For that, execute the following commands:
```
pod trunk push OpenCombine.podspec --verbose --allow-warnings
pod trunk push OpenCombineDispatch.podspec --verbose --allow-warnings
pod trunk push OpenCombineFoundation.podspec --verbose --allow-warnings
```
Note that you need to be one of the owners of the pod for that.
#### GYB
Some publishers in OpenCombine (like `Publishers.MapKeyPath`, `Publishers.Merge`) exist in several
different flavors in order to support several arities. For example, there are also `Publishers.MapKeyPath2`
and `Publishers.MapKeyPath3`, which are very similar but different enough that Swift's type system
can't help us here (because there's no support for variadic generics). Maintaining multiple instances of
those generic types is tedious and error-prone (they can get out of sync), so we use the GYB tool for
generating those instances from a template.
GYB is a Python script that evaluates Python code written inside a template file, so it's very flexible —
templates can be arbitrarily complex. There is a good article about GYB on
[NSHipster](https://nshipster.com/swift-gyb/).
GYB is part of the [Swift Open Source Project](https://github.com/apple/swift/blob/master/utils/gyb.py)
and can be distributed under the same license as Swift itself.
GYB template files have the `.gyb` extension. Run `make gyb` to generate Swift code from those
templates. The generated files are prefixed with `GENERATED-` and are checked into source control. Those
files should never be edited directly. Instead, the `.gyb` template should be edited, and after that the files
should be regenerated using `make gyb`.
#### Debugger Support
The file `opencombine_lldb.py` defines some `lldb` type summaries for easier debugging. These type summaries improve the way `lldb` and Xcode display some OpenCombine values.
@@ -124,3 +77,7 @@ Currently, `opencombine_lldb.py` defines type summaries for these types:
- `Subscribers.Demand`
- That's all for now.
### Contributing
See [CONTRIBUTING.md](CONTRIBUTING.md).
RemainingCombineInterface.swift
+70 -231
View File
@@ -164,13 +164,12 @@ extension Publisher {
extension Publishers {
/// A strategy for collecting received elements.
///
/// - byTime: Collect and periodically publish items.
/// - byTimeOrCount: Collect and publish items, either periodically or when a buffer reaches its maximum size.
public enum TimeGroupingStrategy<Context> where Context : Scheduler {
/// A grouping that collects and periodically publishes items.
case byTime(Context, Context.SchedulerTimeType.Stride)
/// A grouping that collects and publishes items periodically or when a buffer reaches a maximum size.
case byTimeOrCount(Context, Context.SchedulerTimeType.Stride, Int)
}
@@ -208,59 +207,43 @@ extension Publishers {
extension Publisher {
/// Collects elements by a given strategy, and emits a single array of the collection.
/// Collects elements by a given time-grouping strategy, and emits a single array of
/// the collection.
///
/// Use `collect(_:options:)` to emit arrays of elements on a schedule specified by
/// a `Scheduler` and `Stride` that you provide. At the end of each scheduled
/// interval, the publisher sends an array that contains the items it collected.
/// If the upstream publisher finishes before filling the buffer, the publisher sends
/// an array that contains items it received. This may be fewer than the number of
/// elements specified in the requested `Stride`.
///
/// If the upstream publisher fails with an error, this publisher forwards the error
/// to the downstream receiver instead of sending its output.
///
/// The example above collects timestamps generated on a one-second `Timer` in groups
/// (`Stride`) of five.
///
/// let sub = Timer.publish(every: 1, on: .main, in: .default)
/// .autoconnect()
/// .collect(.byTime(RunLoop.main, .seconds(5)))
/// .sink { print("\($0)", terminator: "\n\n") }
///
/// // Prints: "[2020-01-24 00:54:46 +0000, 2020-01-24 00:54:47 +0000,
/// // 2020-01-24 00:54:48 +0000, 2020-01-24 00:54:49 +0000,
/// // 2020-01-24 00:54:50 +0000]"
///
/// > Note: When this publisher receives a request for `.max(n)` elements, it requests
/// `.max(count * n)` from the upstream publisher.
///
/// If the upstream publisher finishes before filling the buffer, this publisher sends an array of all the items it has received. This may be fewer than `count` elements.
/// If the upstream publisher fails with an error, this publisher forwards the error to the downstream receiver instead of sending its output.
/// Note: When this publisher receives a request for `.max(n)` elements, it requests `.max(count * n)` from the upstream publisher.
/// - Parameters:
/// - strategy: The strategy with which to collect and publish elements.
/// - options: `Scheduler` options to use for the strategy.
/// - Returns: A publisher that collects elements by a given strategy, and emits a single array of the collection.
/// - strategy: The timing group strategy used by the operator to collect and
/// publish elements.
/// - options: ``Scheduler`` options to use for the strategy.
/// - Returns: A publisher that collects elements by a given strategy, and emits
/// a single array of the collection.
public func collect<S>(_ strategy: Publishers.TimeGroupingStrategy<S>, options: S.SchedulerOptions? = nil) -> Publishers.CollectByTime<Self, S> where S : Scheduler
}
extension Publishers {
public struct PrefixUntilOutput<Upstream, Other> : Publisher where Upstream : Publisher, Other : Publisher {
/// The kind of values published by this publisher.
public typealias Output = Upstream.Output
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
public typealias Failure = Upstream.Failure
/// The publisher from which this publisher receives elements.
public let upstream: Upstream
/// Another publisher, whose first output causes this publisher to finish.
public let other: Other
public init(upstream: Upstream, other: Other)
/// This function is called to attach the specified `Subscriber` to this `Publisher` by `subscribe(_:)`
///
/// - SeeAlso: `subscribe(_:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`.
/// once attached it can begin to receive values.
public func receive<S>(subscriber: S) where S : Subscriber, Upstream.Failure == S.Failure, Upstream.Output == S.Input
}
}
extension Publisher {
/// Republishes elements until another publisher emits an element.
///
/// After the second publisher publishes an element, the publisher returned by this method finishes.
///
/// - Parameter publisher: A second publisher.
/// - Returns: A publisher that republishes elements until the second publisher publishes an element.
public func prefix<P>(untilOutputFrom publisher: P) -> Publishers.PrefixUntilOutput<Self, P> where P : Publisher
}
extension Publishers {
/// A publisher created by applying the merge function to two upstream publishers.
@@ -750,179 +733,48 @@ extension Publishers {
extension Publisher {
/// Publishes either the most-recent or first element published by the upstream publisher in the specified time interval.
/// Publishes either the most-recent or first element published by the upstream
/// publisher in the specified time interval.
///
/// Use `throttle(for:scheduler:latest:`` to selectively republish elements from
/// an upstream publisher during an interval you specify. Other elements received from
/// the upstream in the throttling interval arent republished.
///
/// In the example below, a `Timer.TimerPublisher` produces elements on 3-second
/// intervals; the `throttle(for:scheduler:latest:)` operator delivers the first
/// event, then republishes only the latest event in the following ten second
/// intervals:
///
/// cancellable = Timer.publish(every: 3.0, on: .main, in: .default)
/// .autoconnect()
/// .print("\(Date().description)")
/// .throttle(for: 10.0, scheduler: RunLoop.main, latest: true)
/// .sink(
/// receiveCompletion: { print ("Completion: \($0).") },
/// receiveValue: { print("Received Timestamp \($0).") }
/// )
///
/// // Prints:
/// // Publish at: 2020-03-19 18:26:54 +0000: receive value: (2020-03-19 18:26:57 +0000)
/// // Received Timestamp 2020-03-19 18:26:57 +0000.
/// // Publish at: 2020-03-19 18:26:54 +0000: receive value: (2020-03-19 18:27:00 +0000)
/// // Publish at: 2020-03-19 18:26:54 +0000: receive value: (2020-03-19 18:27:03 +0000)
/// // Publish at: 2020-03-19 18:26:54 +0000: receive value: (2020-03-19 18:27:06 +0000)
/// // Publish at: 2020-03-19 18:26:54 +0000: receive value: (2020-03-19 18:27:09 +0000)
/// // Received Timestamp 2020-03-19 18:27:09 +0000.
///
/// - Parameters:
/// - interval: The interval at which to find and emit the most recent element, expressed in the time system of the scheduler.
/// - interval: The interval at which to find and emit either the most recent or
/// the first element, expressed in the time system of the scheduler.
/// - scheduler: The scheduler on which to publish elements.
/// - latest: A Boolean value that indicates whether to publish the most recent element. If `false`, the publisher emits the first element received during the interval.
/// - Returns: A publisher that emits either the most-recent or first element received during the specified interval.
/// - latest: A Boolean value that indicates whether to publish the most recent
/// element. If `false`, the publisher emits the first element received during
/// the interval.
/// - Returns: A publisher that emits either the most-recent or first element received
/// during the specified interval.
public func throttle<S>(for interval: S.SchedulerTimeType.Stride, scheduler: S, latest: Bool) -> Publishers.Throttle<Self, S> where S : Scheduler
}
extension Publishers {
/// A publisher created by applying the zip function to two upstream publishers.
public struct Zip<A, B> : Publisher where A : Publisher, B : Publisher, A.Failure == B.Failure {
/// The kind of values published by this publisher.
public typealias Output = (A.Output, B.Output)
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
public typealias Failure = A.Failure
public let a: A
public let b: B
public init(_ a: A, _ b: B)
/// This function is called to attach the specified `Subscriber` to this `Publisher` by `subscribe(_:)`
///
/// - SeeAlso: `subscribe(_:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`.
/// once attached it can begin to receive values.
public func receive<S>(subscriber: S) where S : Subscriber, B.Failure == S.Failure, S.Input == (A.Output, B.Output)
}
/// A publisher created by applying the zip function to three upstream publishers.
public struct Zip3<A, B, C> : Publisher where A : Publisher, B : Publisher, C : Publisher, A.Failure == B.Failure, B.Failure == C.Failure {
/// The kind of values published by this publisher.
public typealias Output = (A.Output, B.Output, C.Output)
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
public typealias Failure = A.Failure
public let a: A
public let b: B
public let c: C
public init(_ a: A, _ b: B, _ c: C)
/// This function is called to attach the specified `Subscriber` to this `Publisher` by `subscribe(_:)`
///
/// - SeeAlso: `subscribe(_:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`.
/// once attached it can begin to receive values.
public func receive<S>(subscriber: S) where S : Subscriber, C.Failure == S.Failure, S.Input == (A.Output, B.Output, C.Output)
}
/// A publisher created by applying the zip function to four upstream publishers.
public struct Zip4<A, B, C, D> : Publisher where A : Publisher, B : Publisher, C : Publisher, D : Publisher, A.Failure == B.Failure, B.Failure == C.Failure, C.Failure == D.Failure {
/// The kind of values published by this publisher.
public typealias Output = (A.Output, B.Output, C.Output, D.Output)
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
public typealias Failure = A.Failure
public let a: A
public let b: B
public let c: C
public let d: D
public init(_ a: A, _ b: B, _ c: C, _ d: D)
/// This function is called to attach the specified `Subscriber` to this `Publisher` by `subscribe(_:)`
///
/// - SeeAlso: `subscribe(_:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`.
/// once attached it can begin to receive values.
public func receive<S>(subscriber: S) where S : Subscriber, D.Failure == S.Failure, S.Input == (A.Output, B.Output, C.Output, D.Output)
}
}
extension Publisher {
/// Combine elements from another publisher and deliver pairs of elements as tuples.
///
/// The returned publisher waits until both publishers have emitted an event, then delivers the oldest unconsumed event from each publisher together as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits event `c`, the zip publisher emits the tuple `(a, c)`. It wont emit a tuple with event `b` until `P2` emits another event.
/// If either upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameter other: Another publisher.
/// - Returns: A publisher that emits pairs of elements from the upstream publishers as tuples.
public func zip<P>(_ other: P) -> Publishers.Zip<Self, P> where P : Publisher, Self.Failure == P.Failure
/// Combine elements from another publisher and deliver a transformed output.
///
/// The returned publisher waits until both publishers have emitted an event, then delivers the oldest unconsumed event from each publisher together as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits event `c`, the zip publisher emits the tuple `(a, c)`. It wont emit a tuple with event `b` until `P2` emits another event.
/// If either upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameter other: Another publisher.
/// - transform: A closure that receives the most recent value from each publisher and returns a new value to publish.
/// - Returns: A publisher that emits pairs of elements from the upstream publishers as tuples.
public func zip<P, T>(_ other: P, _ transform: @escaping (Self.Output, P.Output) -> T) -> Publishers.Map<Publishers.Zip<Self, P>, T> where P : Publisher, Self.Failure == P.Failure
/// Combine elements from two other publishers and deliver groups of elements as tuples.
///
/// The returned publisher waits until all three publishers have emitted an event, then delivers the oldest unconsumed event from each publisher as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits elements `c` and `d`, and publisher `P3` emits the event `e`, the zip publisher emits the tuple `(a, c, e)`. It wont emit a tuple with elements `b` or `d` until `P3` emits another event.
/// If any upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameters:
/// - publisher1: A second publisher.
/// - publisher2: A third publisher.
/// - Returns: A publisher that emits groups of elements from the upstream publishers as tuples.
public func zip<P, Q>(_ publisher1: P, _ publisher2: Q) -> Publishers.Zip3<Self, P, Q> where P : Publisher, Q : Publisher, Self.Failure == P.Failure, P.Failure == Q.Failure
/// Combine elements from two other publishers and deliver a transformed output.
///
/// The returned publisher waits until all three publishers have emitted an event, then delivers the oldest unconsumed event from each publisher as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits elements `c` and `d`, and publisher `P3` emits the event `e`, the zip publisher emits the tuple `(a, c, e)`. It wont emit a tuple with elements `b` or `d` until `P3` emits another event.
/// If any upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameters:
/// - publisher1: A second publisher.
/// - publisher2: A third publisher.
/// - transform: A closure that receives the most recent value from each publisher and returns a new value to publish.
/// - Returns: A publisher that emits groups of elements from the upstream publishers as tuples.
public func zip<P, Q, T>(_ publisher1: P, _ publisher2: Q, _ transform: @escaping (Self.Output, P.Output, Q.Output) -> T) -> Publishers.Map<Publishers.Zip3<Self, P, Q>, T> where P : Publisher, Q : Publisher, Self.Failure == P.Failure, P.Failure == Q.Failure
/// Combine elements from three other publishers and deliver groups of elements as tuples.
///
/// The returned publisher waits until all four publishers have emitted an event, then delivers the oldest unconsumed event from each publisher as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits elements `c` and `d`, and publisher `P3` emits the elements `e` and `f`, and publisher `P4` emits the event `g`, the zip publisher emits the tuple `(a, c, e, g)`. It wont emit a tuple with elements `b`, `d`, or `f` until `P4` emits another event.
/// If any upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameters:
/// - publisher1: A second publisher.
/// - publisher2: A third publisher.
/// - publisher3: A fourth publisher.
/// - Returns: A publisher that emits groups of elements from the upstream publishers as tuples.
public func zip<P, Q, R>(_ publisher1: P, _ publisher2: Q, _ publisher3: R) -> Publishers.Zip4<Self, P, Q, R> where P : Publisher, Q : Publisher, R : Publisher, Self.Failure == P.Failure, P.Failure == Q.Failure, Q.Failure == R.Failure
/// Combine elements from three other publishers and deliver a transformed output.
///
/// The returned publisher waits until all four publishers have emitted an event, then delivers the oldest unconsumed event from each publisher as a tuple to the subscriber.
/// For example, if publisher `P1` emits elements `a` and `b`, and publisher `P2` emits elements `c` and `d`, and publisher `P3` emits the elements `e` and `f`, and publisher `P4` emits the event `g`, the zip publisher emits the tuple `(a, c, e, g)`. It wont emit a tuple with elements `b`, `d`, or `f` until `P4` emits another event.
/// If any upstream publisher finishes successfuly or fails with an error, the zipped publisher does the same.
///
/// - Parameters:
/// - publisher1: A second publisher.
/// - publisher2: A third publisher.
/// - publisher3: A fourth publisher.
/// - transform: A closure that receives the most recent value from each publisher and returns a new value to publish.
/// - Returns: A publisher that emits groups of elements from the upstream publishers as tuples.
public func zip<P, Q, R, T>(_ publisher1: P, _ publisher2: Q, _ publisher3: R, _ transform: @escaping (Self.Output, P.Output, Q.Output, R.Output) -> T) -> Publishers.Map<Publishers.Zip4<Self, P, Q, R>, T> where P : Publisher, Q : Publisher, R : Publisher, Self.Failure == P.Failure, P.Failure == Q.Failure, Q.Failure == R.Failure
}
extension Publishers.CombineLatest : Equatable where A : Equatable, B : Equatable {
/// Returns a Boolean value that indicates whether two publishers are equivalent.
@@ -1050,19 +902,6 @@ extension Publishers.MergeMany : Equatable where Upstream : Equatable {
public static func == (lhs: Publishers.MergeMany<Upstream>, rhs: Publishers.MergeMany<Upstream>) -> Bool
}
extension Publishers.Retry : Equatable where Upstream : Equatable {
/// Returns a Boolean value indicating whether two values are equal.
///
/// Equality is the inverse of inequality. For any values `a` and `b`,
/// `a == b` implies that `a != b` is `false`.
///
/// - Parameters:
/// - lhs: A value to compare.
/// - rhs: Another value to compare.
public static func == (lhs: Publishers.Retry<Upstream>, rhs: Publishers.Retry<Upstream>) -> Bool
}
extension Publishers.Zip : Equatable where A : Equatable, B : Equatable {
/// Returns a Boolean value that indicates whether two publishers are equivalent.
Sources/COpenCombineHelpers/COpenCombineHelpers.cpp
+65 -40
View File
@@ -10,13 +10,31 @@
#include <atomic>
#include <cstdlib>
#include <system_error>
#include <pthread.h>
#include <signal.h>
#if __has_include(<pthread.h>)
# include <pthread.h>
# define OPENCOMBINE_HAS_PTHREAD 1
#else
# define OPENCOMBINE_HAS_PTHREAD 0
#endif
#if __has_include(<signal.h>)
# include <signal.h>
# define OPENCOMBINE_HAS_SIGNAL_HANDLING 1
#else
# define OPENCOMBINE_HAS_SIGNAL_HANDLING 0
#endif
#ifdef _WIN32
# include <windows.h>
#endif
#ifdef __APPLE__
#include <os/lock.h>
#endif // __APPLE__
#include <mutex>
// Throwing exceptions through language boundaries is undefined behavior,
// so we must catch all of them in our extern "C" functions.
#define OPENCOMBINE_HANDLE_EXCEPTION_BEGIN try {
@@ -47,10 +65,11 @@ public:
virtual void unlock() = 0;
virtual void assertOwner() {}
virtual ~PlatformIndependentMutex() noexcept(false) {}
virtual ~PlatformIndependentMutex() {}
};
class PThreadMutex : PlatformIndependentMutex {
#if OPENCOMBINE_HAS_PTHREAD
class PThreadMutex final : PlatformIndependentMutex {
private:
pthread_mutex_t mutex_;
public:
@@ -66,20 +85,16 @@ public:
PThreadMutex(PThreadMutex&&) = delete;
PThreadMutex& operator=(PThreadMutex&&) = delete;
void lock() override final {
void lock() override {
OPENCOMBINE_HANDLE_PTHREAD_CALL(pthread_mutex_lock(&mutex_));
}
void unlock() override final {
void unlock() override {
OPENCOMBINE_HANDLE_PTHREAD_CALL(pthread_mutex_unlock(&mutex_));
}
~PThreadMutex() {
// Yep, this destructor may throw. This is deliberate, since pthread_mutex_destroy
// may fail.
//
// The altrenative is to just silently ignore the error, which is even worse.
OPENCOMBINE_HANDLE_PTHREAD_CALL(pthread_mutex_destroy(&mutex_));
pthread_mutex_destroy(&mutex_);
}
protected:
class Attributes {
@@ -107,12 +122,8 @@ protected:
setType(PTHREAD_MUTEX_ERRORCHECK);
}
~Attributes() noexcept(false) {
// Yep, this destructor may throw. This is deliberate,
// since pthread_mutexattr_destroy may fail.
//
// The altrenative is to just silently ignore the error, which is even worse.
OPENCOMBINE_HANDLE_PTHREAD_CALL(pthread_mutexattr_destroy(&attrs_));
~Attributes() {
pthread_mutexattr_destroy(&attrs_);
}
private:
void setType(int type) {
@@ -124,21 +135,7 @@ protected:
OPENCOMBINE_HANDLE_PTHREAD_CALL(pthread_mutex_init(&mutex_, attributes.raw()));
}
};
class PThreadRecursiveMutex final : PThreadMutex {
public:
PThreadRecursiveMutex() {
Attributes attrs;
attrs.setRecursive();
initialize(attrs);
}
PThreadRecursiveMutex(const PThreadRecursiveMutex&) = delete;
PThreadRecursiveMutex& operator=(const PThreadRecursiveMutex&) = delete;
PThreadRecursiveMutex(PThreadRecursiveMutex&&) = delete;
PThreadRecursiveMutex& operator=(PThreadRecursiveMutex&&) = delete;
};
#endif // OPENCOMBINE_HAS_PTHREAD
#ifdef __APPLE__
@@ -167,9 +164,32 @@ public:
};
#endif // __APPLE__
} // end anonymous namespace
template <typename Mu>
class GenericMutex final : PlatformIndependentMutex {
Mu mutex_;
public:
extern "C" {
GenericMutex() = default;
GenericMutex(const GenericMutex&) = delete;
GenericMutex& operator=(const GenericMutex&) = delete;
GenericMutex(GenericMutex&&) = delete;
GenericMutex& operator=(GenericMutex&&) = delete;
void lock() override {
mutex_.lock();
}
void unlock() override {
mutex_.unlock();
}
};
using StdMutex = GenericMutex<std::mutex>;
using StdRecursiveMutex = GenericMutex<std::recursive_mutex>;
} // end anonymous namespace
uint64_t opencombine_next_combine_identifier(void) {
return next_combine_identifier.fetch_add(1);
@@ -177,24 +197,27 @@ uint64_t opencombine_next_combine_identifier(void) {
OpenCombineUnfairLock opencombine_unfair_lock_alloc(void) {
OPENCOMBINE_HANDLE_EXCEPTION_BEGIN
#ifdef __APPLE__
if (__builtin_available(macOS 10.12, iOS 10.0, tvOS 10.0, watchOS 3.0, *)) {
return {new OSUnfairLock};
} else {
return {new PThreadMutex};
}
#else
#elif OPENCOMBINE_HAS_PTHREAD
// When possible, use pthread mutex implementation, because it allows
// setting the PTHREAD_MUTEX_ERRORCHECK attribute, which makes
// recursive locking a hard error instead of UB.
return {new PThreadMutex};
#else
return {new StdMutex};
#endif
OPENCOMBINE_HANDLE_EXCEPTION_END
}
OpenCombineUnfairRecursiveLock opencombine_unfair_recursive_lock_alloc(void) {
OPENCOMBINE_HANDLE_EXCEPTION_BEGIN
// TODO: Use os_unfair_recursive_lock on Darwin as soon as it becomes public API.
return {new PThreadRecursiveMutex};
return {new StdRecursiveMutex};
OPENCOMBINE_HANDLE_EXCEPTION_END
}
@@ -237,7 +260,9 @@ void opencombine_unfair_recursive_lock_dealloc(OpenCombineUnfairRecursiveLock lo
}
void opencombine_stop_in_debugger(void) {
#if _WIN32
DebugBreak();
#elif OPENCOMBINE_HAS_SIGNAL_HANDLING
raise(SIGTRAP);
#endif
}
} // extern "C"
Sources/COpenCombineHelpers/include/module.modulemap
+3
View File
@@ -0,0 +1,3 @@
module COpenCombineHelpers {
header "COpenCombineHelpers.h"
}
Sources/OpenCombine/AnyCancellable.swift
+8 -7
View File
@@ -10,7 +10,8 @@
/// Subscriber implementations can use this type to provide a cancellation token that
/// makes it possible for a caller to cancel a publisher, but not to use the
/// `Subscription` object to request items.
/// An AnyCancellable instance automatically calls `cancel()` when deinitialized.
///
/// An `AnyCancellable` instance automatically calls `cancel()` when deinitialized.
public final class AnyCancellable: Cancellable, Hashable {
private var _cancel: (() -> Void)?
@@ -46,18 +47,18 @@ public final class AnyCancellable: Cancellable, Hashable {
extension AnyCancellable {
/// Stores this AnyCancellable in the specified collection.
/// Parameters:
/// - collection: The collection to store this AnyCancellable.
/// Stores this type-erasing cancellable instance in the specified collection.
///
/// - Parameter collection: The collection in which to store this `AnyCancellable`.
public func store<Cancellables: RangeReplaceableCollection>(
in collection: inout Cancellables
) where Cancellables.Element == AnyCancellable {
collection.append(self)
}
/// Stores this AnyCancellable in the specified set.
/// Parameters:
/// - set: The set to store this AnyCancellable.
/// Stores this type-erasing cancellable instance in the specified collection.
///
/// - Parameter collection: The collection in which to store this `AnyCancellable`.
public func store(in set: inout Set<AnyCancellable>) {
set.insert(self)
}
Sources/OpenCombine/AnyPublisher.swift
+52 -7
View File
@@ -9,8 +9,43 @@ extension Publisher {
/// Wraps this publisher with a type eraser.
///
/// Use `eraseToAnyPublisher()` to expose an instance of `AnyPublisher` to
/// Use `eraseToAnyPublisher()` to expose an instance of `AnyPublisher`` to
/// the downstream subscriber, rather than this publishers actual type.
/// This form of _type erasure_ preserves abstraction across API boundaries, such as
/// different modules.
/// When you expose your publishers as the `AnyPublisher` type, you can change
/// the underlying implementation over time without affecting existing clients.
///
/// The following example shows two types that each have a `publisher` property.
/// `TypeWithSubject` exposes this property as its actual type, `PassthroughSubject`,
/// while `TypeWithErasedSubject` uses `eraseToAnyPublisher()` to expose it as
/// an `AnyPublisher`. As seen in the output, a caller from another module can access
/// `TypeWithSubject.publisher` as its native type. This means you cant change your
/// publisher to a different type without breaking the caller. By comparison,
/// `TypeWithErasedSubject.publisher` appears to callers as an `AnyPublisher`, so you
/// can change the underlying publisher type at will.
///
/// public class TypeWithSubject {
/// public let publisher: some Publisher = PassthroughSubject<Int,Never>()
/// }
/// public class TypeWithErasedSubject {
/// public let publisher: some Publisher = PassthroughSubject<Int,Never>()
/// .eraseToAnyPublisher()
/// }
///
/// // In another module:
/// let nonErased = TypeWithSubject()
/// if let subject = nonErased.publisher as? PassthroughSubject<Int,Never> {
/// print("Successfully cast nonErased.publisher.")
/// }
/// let erased = TypeWithErasedSubject()
/// if let subject = erased.publisher as? PassthroughSubject<Int,Never> {
/// print("Successfully cast erased.publisher.")
/// }
///
/// // Prints "Successfully cast nonErased.publisher."
///
/// - Returns: An ``AnyPublisher`` wrapping this publisher.
@inlinable
public func eraseToAnyPublisher() -> AnyPublisher<Output, Failure> {
return .init(self)
@@ -20,7 +55,13 @@ extension Publisher {
/// A type-erasing publisher.
///
/// Use `AnyPublisher` to wrap a publisher whose type has details you dont want to expose
/// to subscribers or other publishers.
/// across API boundaries, such as different modules. Wrapping a `Subject` with
/// `AnyPublisher` also prevents callers from accessing its `send(_:)` method. When you
/// use type erasure this way, you can change the underlying publisher implementation over
/// time without affecting existing clients.
///
/// You can use OpenCombines `eraseToAnyPublisher()` operator to wrap a publisher with
/// `AnyPublisher`.
public struct AnyPublisher<Output, Failure: Error>
: CustomStringConvertible,
CustomPlaygroundDisplayConvertible
@@ -30,13 +71,17 @@ public struct AnyPublisher<Output, Failure: Error>
/// Creates a type-erasing publisher to wrap the provided publisher.
///
/// - Parameters:
/// - publisher: A publisher to wrap with a type-eraser.
/// - Parameter publisher: A publisher to wrap with a type-eraser.
@inlinable
public init<PublisherType: Publisher>(_ publisher: PublisherType)
where Output == PublisherType.Output, Failure == PublisherType.Failure
{
box = PublisherBox(base: publisher)
// If this has already been boxed, avoid boxing again
if let erased = publisher as? AnyPublisher<Output, Failure> {
box = erased.box
} else {
box = PublisherBox(base: publisher)
}
}
public var description: String {
@@ -61,7 +106,7 @@ extension AnyPublisher: Publisher {
public func receive<Downstream: Subscriber>(subscriber: Downstream)
where Output == Downstream.Input, Failure == Downstream.Failure
{
box.subscribe(subscriber)
box.receive(subscriber: subscriber)
}
}
@@ -98,6 +143,6 @@ internal final class PublisherBox<PublisherType: Publisher>
override internal func receive<Downstream: Subscriber>(subscriber: Downstream)
where Failure == Downstream.Failure, Output == Downstream.Input
{
base.subscribe(subscriber)
base.receive(subscriber: subscriber)
}
}
Sources/OpenCombine/AnySubscriber.swift
+9 -3
View File
@@ -7,9 +7,10 @@
/// A type-erasing subscriber.
///
/// Use an `AnySubscriber` to wrap an existing subscriber whose details you dont want
/// to expose. You can also use `AnySubscriber` to create a custom subscriber by providing
/// closures for `Subscriber`s methods, rather than implementing `Subscriber` directly.
/// Use an `AnySubscriber` to wrap an existing subscriber whose details you dont want to
/// expose. You can also use `AnySubscriber` to create a custom subscriber by providing
/// closures for the methods defined in `Subscriber`, rather than implementing
/// `Subscriber` directly.
public struct AnySubscriber<Input, Failure: Error>: Subscriber,
CustomStringConvertible,
CustomReflectable,
@@ -44,6 +45,11 @@ public struct AnySubscriber<Input, Failure: Error>: Subscriber,
public init<Subscriber: OpenCombine.Subscriber>(_ subscriber: Subscriber)
where Input == Subscriber.Input, Failure == Subscriber.Failure
{
if let erased = subscriber as? AnySubscriber<Input, Failure> {
self = erased
return
}
combineIdentifier = subscriber.combineIdentifier
box = AnySubscriberBox(subscriber)
Sources/OpenCombine/Cancellable.swift
+7 -7
View File
@@ -5,7 +5,7 @@
// Created by Sergej Jaskiewicz on 10.06.2019.
//
/// A protocol indicating that an activity or action may be canceled.
/// A protocol indicating that an activity or action supports cancellation.
///
/// Calling `cancel()` frees up any allocated resources. It also stops side effects such
/// as timers, network access, or disk I/O.
@@ -17,18 +17,18 @@ public protocol Cancellable {
extension Cancellable {
/// Stores this Cancellable in the specified collection.
/// Parameters:
/// - collection: The collection to store this Cancellable.
/// Stores this cancellable instance in the specified collection.
///
/// - Parameter collection: The collection in which to store this `Cancellable`.
public func store<Cancellables: RangeReplaceableCollection>(
in collection: inout Cancellables
) where Cancellables.Element == AnyCancellable {
AnyCancellable(self).store(in: &collection)
}
/// Stores this Cancellable in the specified set.
/// Parameters:
/// - set: The set to store this Cancellable.
/// Stores this cancellable instance in the specified set.
///
/// - Parameter set: The set in which to store this `Cancellable`.
public func store(in set: inout Set<AnyCancellable>) {
AnyCancellable(self).store(in: &set)
}
Sources/OpenCombine/Codable.swift
+8
View File
@@ -5,17 +5,25 @@
// Created by Sergej Jaskiewicz on 11.06.2019.
//
/// A type that defines methods for decoding.
public protocol TopLevelDecoder {
/// The type this decoder accepts.
associatedtype Input
/// Decodes an instance of the indicated type.
func decode<DecodablyType: Decodable>(_ type: DecodablyType.Type,
from: Input) throws -> DecodablyType
}
/// A type that defines methods for encoding.
public protocol TopLevelEncoder {
/// The type this encoder produces.
associatedtype Output
/// Encodes an instance of the indicated type.
///
/// - Parameter value: The instance to encode.
func encode<EncodableType: Encodable>(_ value: EncodableType) throws -> Output
}
Sources/OpenCombine/CombineIdentifier.swift
+22 -4
View File
@@ -9,19 +9,37 @@
import COpenCombineHelpers
#endif
#if WASI
private var __identifier: UInt64 = 0
internal func __nextCombineIdentifier() -> UInt64 {
defer { __identifier += 1 }
return __identifier
}
#endif // WASI
/// A unique identifier for identifying publisher streams.
///
/// To conform to `CustomCombineIdentifierConvertible` in a
/// `Subscription` or `Subject` that you implement as a structure, create an instance of
/// `CombineIdentifier` as follows:
///
/// let combineIdentifier = CombineIdentifier()
public struct CombineIdentifier: Hashable, CustomStringConvertible {
private let value: UInt64
private let rawValue: UInt64
/// Creates a unique Combine identifier.
public init() {
value = __nextCombineIdentifier()
rawValue = __nextCombineIdentifier()
}
/// Creates a Combine identifier, using the bit pattern of the provided object.
public init(_ obj: AnyObject) {
value = UInt64(UInt(bitPattern: ObjectIdentifier(obj)))
rawValue = UInt64(UInt(bitPattern: ObjectIdentifier(obj)))
}
public var description: String {
return "0x\(String(value, radix: 16))"
return "0x\(String(rawValue, radix: 16))"
}
}
Sources/OpenCombine/Concurrency/ConcurrencyHelpers.swift
+24
View File
@@ -0,0 +1,24 @@
//
// ConcurrencyHelpers.swift
//
//
// Created by Sergej Jaskiewicz on 14.11.2022.
//
#if canImport(_Concurrency) && compiler(>=5.5)
import _Concurrency
#endif
#if (canImport(_Concurrency) && compiler(>=5.5) || compiler(>=5.5.1)) && swift(<5.7)
/// A polyfill for pre-5.7 Swift versions.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
internal func withTaskCancellationHandler<T>( // swiftlint:disable:this generic_type_name
operation: () async throws -> T,
onCancel handler: @Sendable () -> Void
) async rethrows -> T {
return try await withTaskCancellationHandler(
handler: handler,
operation: operation
)
}
#endif
Sources/OpenCombine/Concurrency/Future+Concurrency.swift
+136
View File
@@ -0,0 +1,136 @@
//
// Future+Concurrency.swift
//
//
// Created by Sergej Jaskiewicz on 28.08.2021.
//
#if canImport(_Concurrency) && compiler(>=5.5)
import _Concurrency
#endif
#if canImport(_Concurrency) && compiler(>=5.5) || compiler(>=5.5.1)
extension Future where Failure == Never {
/// The published value of the future, delivered asynchronously.
///
/// This property subscribes to the `Future` and delivers the value asynchronously
/// when the `Future` publishes it. Use this property when you want to use
/// the `async`-`await` syntax with a `Future`.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public var value: Output {
get async {
await ContinuationSubscriber.withUnsafeSubscription(self)
}
}
}
extension Future {
/// The published value of the future or an error, delivered asynchronously.
///
/// This property subscribes to the `Future` and delivers the value asynchronously
/// when the `Future` publishes it. If the `Future` terminates with an error,
/// the awaiting caller receives the error instead. Use this property when you want
/// to the `async`-`await` syntax with a `Future` whose `Failure` type is not `Never`.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public var value: Output {
get async throws {
try await ContinuationSubscriber.withUnsafeThrowingSubscription(self)
}
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
private final class ContinuationSubscriber<Input,
UpstreamFailure: Error,
ErrorOrNever: Error>
: Subscriber
{
typealias Failure = UpstreamFailure
private var continuation: UnsafeContinuation<Input, ErrorOrNever>?
private var subscription: Subscription?
private let lock = UnfairLock.allocate()
private init(_ continuation: UnsafeContinuation<Input, ErrorOrNever>) {
self.continuation = continuation
}
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard self.subscription == nil else {
assertionFailure("Unexpected state: received subscription twice")
lock.unlock()
subscription.cancel()
return
}
self.subscription = subscription
lock.unlock()
subscription.request(.max(1))
}
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
if let continuation = self.continuation.take() {
lock.unlock()
continuation.resume(returning: input)
} else {
assertionFailure("Unexpected state: already completed")
lock.unlock()
}
return .none
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
subscription = nil
lock.unlock()
completion.failure.map(handleFailure)
}
private func handleFailure(_ error: Failure) {
lock.lock()
if let continuation = self.continuation.take() {
lock.unlock()
continuation.resume(throwing: error as! ErrorOrNever)
} else {
assertionFailure("Unexpected state: already completed")
lock.unlock()
}
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension ContinuationSubscriber where ErrorOrNever == Error {
fileprivate static func withUnsafeThrowingSubscription<Upstream: Publisher>(
_ upstream: Upstream
) async throws -> Input
where Upstream.Output == Input,
Upstream.Failure == UpstreamFailure
{
try await withUnsafeThrowingContinuation { continuation in
upstream.subscribe(ContinuationSubscriber(continuation))
}
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension ContinuationSubscriber where UpstreamFailure == Never, ErrorOrNever == Never {
fileprivate static func withUnsafeSubscription<Upstream: Publisher>(
_ upstream: Upstream
) async -> Input
where Upstream.Output == Input,
Upstream.Failure == Never
{
await withUnsafeContinuation { continuation in
upstream.subscribe(ContinuationSubscriber(continuation))
}
}
}
#endif
Sources/OpenCombine/Concurrency/GENERATED-Publisher+Concurrency.swift
Generated
+397
View File
@@ -0,0 +1,397 @@
//
//
// Auto-generated from GYB template. DO NOT EDIT!
//
//
//
//
// Publisher+Concurrency.swift
//
//
// Created by Sergej Jaskiewicz on 28.08.2021.
//
#if canImport(_Concurrency) && compiler(>=5.5)
import _Concurrency
#endif
#if canImport(_Concurrency) && compiler(>=5.5) || compiler(>=5.5.1)
extension Publisher where Failure == Never {
/// The elements produced by the publisher, as an asynchronous sequence.
///
/// This property provides an `AsyncPublisher`, which allows you to use
/// the Swift `async`-`await` syntax to receive the publisher's elements.
/// Because `AsyncPublisher` conforms to `AsyncSequence`, you iterate over its
/// elements with a `for`-`await`-`in` loop, rather than attaching a subscriber.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public var values: AsyncPublisher<Self> {
return .init(self)
}
}
/// A publisher that exposes its elements as an asynchronous sequence.
///
/// `AsyncPublisher` conforms to `AsyncSequence`, which allows callers to receive
/// values with the `for`-`await`-`in` syntax, rather than attaching a `Subscriber`.
///
/// Use the `values` property of the `Publisher` protocol to wrap an existing publisher
/// with an instance of this type.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public struct AsyncPublisher<Upstream: Publisher>: AsyncSequence
where Upstream.Failure == Never
{
public typealias Element = Upstream.Output
/// The iterator that produces elements of the asynchronous publisher sequence.
public struct Iterator: AsyncIteratorProtocol {
public typealias Element = Upstream.Output
fileprivate let inner: Inner
/// Produces the next element in the prefix sequence.
///
/// - Returns: The next published element, or `nil` if the publisher finishes
/// normally.
public mutating func next() async -> Element? {
return await withTaskCancellationHandler(
operation: { [inner] in await inner.next() },
onCancel: { [inner] in inner.cancel() }
)
}
}
/// The type of asynchronous iterator that produces elements of this
/// asynchronous sequence.
public typealias AsyncIterator = Iterator
private let publisher: Upstream
/// Creates a publisher that exposes elements received from an upstream publisher as
/// a throwing asynchronous sequence.
///
/// - Parameter publisher: An upstream publisher. The asynchronous publisher converts
/// elements received from this publisher into an asynchronous sequence.
public init(_ publisher: Upstream) {
self.publisher = publisher
}
/// Creates the asynchronous iterator that produces elements of this asynchronous
/// sequence.
///
/// - Returns: An instance of the `AsyncIterator` type used to produce elements of
/// the asynchronous sequence.
public func makeAsyncIterator() -> Iterator {
let inner = Iterator.Inner()
publisher.subscribe(inner)
return Iterator(inner: inner)
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension AsyncPublisher.Iterator {
fileprivate final class Inner: Subscriber, Cancellable {
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
private enum State {
case awaitingSubscription
case subscribed(Subscription)
case terminal
}
private let lock = UnfairLock.allocate()
private var pending: [UnsafeContinuation<Input?, Never>] = []
private var state = State.awaitingSubscription
private var pendingDemand = Subscribers.Demand.none
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(subscription)
let pendingDemand = self.pendingDemand
self.pendingDemand = .none
lock.unlock()
if pendingDemand != .none {
subscription.request(pendingDemand)
}
}
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case .subscribed = state else {
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
return .none
}
precondition(!pending.isEmpty, "Received an output without requesting demand")
let continuation = pending.removeFirst()
lock.unlock()
continuation.resume(returning: input)
return .none
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
state = .terminal
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
}
func cancel() {
lock.lock()
let pending = self.pending.take()
guard case .subscribed(let subscription) = state else {
state = .terminal
lock.unlock()
pending.resumeAllWithNil()
return
}
state = .terminal
lock.unlock()
subscription.cancel()
pending.resumeAllWithNil()
}
fileprivate func next() async -> Input? {
return await withUnsafeContinuation { continuation in
lock.lock()
switch state {
case .awaitingSubscription:
pending.append(continuation)
pendingDemand += 1
lock.unlock()
case .subscribed(let subscription):
pending.append(continuation)
lock.unlock()
subscription.request(.max(1))
case .terminal:
lock.unlock()
continuation.resume(returning: nil)
}
}
}
}
}
extension Publisher {
/// The elements produced by the publisher, as a throwing asynchronous sequence.
///
/// This property provides an `AsyncThrowingPublisher`, which allows you to use
/// the Swift `async`-`await` syntax to receive the publisher's elements.
/// Because `AsyncPublisher` conforms to `AsyncSequence`, you iterate over its
/// elements with a `for`-`await`-`in` loop, rather than attaching a subscriber.
/// If the publisher terminates with an error, the awaiting caller receives the error
/// as a `throw`.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public var values: AsyncThrowingPublisher<Self> {
return .init(self)
}
}
/// A publisher that exposes its elements as a throwing asynchronous sequence.
///
/// `AsyncThrowingPublisher` conforms to `AsyncSequence`, which allows callers to receive
/// values with the `for`-`await`-`in` syntax, rather than attaching a `Subscriber`.
/// If the upstream publisher terminates with an error, `AsyncThrowingPublisher` throws
/// the error to the awaiting caller.
///
/// Use the `values` property of the `Publisher` protocol to wrap an existing publisher
/// with an instance of this type.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public struct AsyncThrowingPublisher<Upstream: Publisher>: AsyncSequence
{
public typealias Element = Upstream.Output
/// The iterator that produces elements of the asynchronous publisher sequence.
public struct Iterator: AsyncIteratorProtocol {
public typealias Element = Upstream.Output
fileprivate let inner: Inner
/// Produces the next element in the prefix sequence.
///
/// - Returns: The next published element, or `nil` if the publisher finishes
/// normally.
/// If the publisher terminates with an error, the call point receives
/// the error as a `throw`.
public mutating func next() async throws -> Element? {
return try await withTaskCancellationHandler(
operation: { [inner] in try await inner.next() },
onCancel: { [inner] in inner.cancel() }
)
}
}
/// The type of asynchronous iterator that produces elements of this
/// asynchronous sequence.
public typealias AsyncIterator = Iterator
private let publisher: Upstream
/// Creates a publisher that exposes elements received from an upstream publisher as
/// an asynchronous sequence.
///
/// - Parameter publisher: An upstream publisher. The asynchronous publisher converts
/// elements received from this publisher into an asynchronous sequence.
public init(_ publisher: Upstream) {
self.publisher = publisher
}
/// Creates the asynchronous iterator that produces elements of this asynchronous
/// sequence.
///
/// - Returns: An instance of the `AsyncIterator` type used to produce elements of
/// the asynchronous sequence.
public func makeAsyncIterator() -> Iterator {
let inner = Iterator.Inner()
publisher.subscribe(inner)
return Iterator(inner: inner)
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension AsyncThrowingPublisher.Iterator {
fileprivate final class Inner: Subscriber, Cancellable {
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
private enum State {
case awaitingSubscription
case subscribed(Subscription)
case terminal(Error?)
}
private let lock = UnfairLock.allocate()
private var pending: [UnsafeContinuation<Input?, Error>] = []
private var state = State.awaitingSubscription
private var pendingDemand = Subscribers.Demand.none
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(subscription)
let pendingDemand = self.pendingDemand
self.pendingDemand = .none
lock.unlock()
if pendingDemand != .none {
subscription.request(pendingDemand)
}
}
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case .subscribed = state else {
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
return .none
}
precondition(!pending.isEmpty, "Received an output without requesting demand")
let continuation = pending.removeFirst()
lock.unlock()
continuation.resume(returning: input)
return .none
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
switch state {
case .awaitingSubscription, .subscribed:
if let continuation = pending.first {
state = .terminal(nil)
let remaining = pending.take().dropFirst()
lock.unlock()
switch completion {
case .finished:
continuation.resume(returning: nil)
case .failure(let error):
continuation.resume(throwing: error)
}
remaining.resumeAllWithNil()
} else {
state = .terminal(completion.failure)
lock.unlock()
}
case .terminal:
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
}
}
func cancel() {
lock.lock()
let pending = self.pending.take()
guard case .subscribed(let subscription) = state else {
state = .terminal(nil)
lock.unlock()
pending.resumeAllWithNil()
return
}
state = .terminal(nil)
lock.unlock()
subscription.cancel()
pending.resumeAllWithNil()
}
fileprivate func next() async throws -> Input? {
return try await withUnsafeThrowingContinuation { continuation in
lock.lock()
switch state {
case .awaitingSubscription:
pending.append(continuation)
pendingDemand += 1
lock.unlock()
case .subscribed(let subscription):
pending.append(continuation)
lock.unlock()
subscription.request(.max(1))
case .terminal(nil):
lock.unlock()
continuation.resume(returning: nil)
case .terminal(let error?):
state = .terminal(nil)
lock.unlock()
continuation.resume(throwing: error)
}
}
}
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension Sequence {
fileprivate func resumeAllWithNil<Output, Failure: Error>()
where Element == UnsafeContinuation<Output?, Failure>
{
for continuation in self {
continuation.resume(returning: nil)
}
}
}
#endif
Sources/OpenCombine/Concurrency/Publisher+Concurrency.swift.gyb
+249
View File
@@ -0,0 +1,249 @@
${template_header}
//
// Publisher+Concurrency.swift
//
//
// Created by Sergej Jaskiewicz on 28.08.2021.
//
#if canImport(_Concurrency) && compiler(>=5.5)
import _Concurrency
#endif
#if canImport(_Concurrency) && compiler(>=5.5) || compiler(>=5.5.1)
%{
instantiations = [('AsyncPublisher', False), ('AsyncThrowingPublisher', True)]
}%
% for instantiation, throwing in instantiations:
extension Publisher ${'' if throwing else 'where Failure == Never '}{
/// The elements produced by the publisher, as ${'a throwing' if throwing else 'an'} asynchronous sequence.
///
/// This property provides an `${instantiation}`, which allows you to use
/// the Swift `async`-`await` syntax to receive the publisher's elements.
/// Because `AsyncPublisher` conforms to `AsyncSequence`, you iterate over its
/// elements with a `for`-`await`-`in` loop, rather than attaching a subscriber.
% if throwing:
/// If the publisher terminates with an error, the awaiting caller receives the error
/// as a `throw`.
% end
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public var values: ${instantiation}<Self> {
return .init(self)
}
}
/// A publisher that exposes its elements as ${'a throwing' if throwing else 'an'} asynchronous sequence.
///
/// `${instantiation}` conforms to `AsyncSequence`, which allows callers to receive
/// values with the `for`-`await`-`in` syntax, rather than attaching a `Subscriber`.
% if throwing:
/// If the upstream publisher terminates with an error, `${instantiation}` throws
/// the error to the awaiting caller.
% end
///
/// Use the `values` property of the `Publisher` protocol to wrap an existing publisher
/// with an instance of this type.
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
public struct ${instantiation}<Upstream: Publisher>: AsyncSequence
% if not throwing:
where Upstream.Failure == Never
% end
{
public typealias Element = Upstream.Output
/// The iterator that produces elements of the asynchronous publisher sequence.
public struct Iterator: AsyncIteratorProtocol {
public typealias Element = Upstream.Output
fileprivate let inner: Inner
/// Produces the next element in the prefix sequence.
///
/// - Returns: The next published element, or `nil` if the publisher finishes
/// normally.
% if throwing:
/// If the publisher terminates with an error, the call point receives
/// the error as a `throw`.
% end
public mutating func next() async ${'throws ' if throwing else ''}-> Element? {
return ${'try ' if throwing else ''}await withTaskCancellationHandler(
operation: { [inner] in ${'try ' if throwing else ''}await inner.next() },
onCancel: { [inner] in inner.cancel() }
)
}
}
/// The type of asynchronous iterator that produces elements of this
/// asynchronous sequence.
public typealias AsyncIterator = Iterator
private let publisher: Upstream
/// Creates a publisher that exposes elements received from an upstream publisher as
% if throwing:
/// an asynchronous sequence.
% else:
/// a throwing asynchronous sequence.
% end
///
/// - Parameter publisher: An upstream publisher. The asynchronous publisher converts
/// elements received from this publisher into an asynchronous sequence.
public init(_ publisher: Upstream) {
self.publisher = publisher
}
/// Creates the asynchronous iterator that produces elements of this asynchronous
/// sequence.
///
/// - Returns: An instance of the `AsyncIterator` type used to produce elements of
/// the asynchronous sequence.
public func makeAsyncIterator() -> Iterator {
let inner = Iterator.Inner()
publisher.subscribe(inner)
return Iterator(inner: inner)
}
}
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension ${instantiation}.Iterator {
fileprivate final class Inner: Subscriber, Cancellable {
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
private enum State {
case awaitingSubscription
case subscribed(Subscription)
case terminal${'(Error?)' if throwing else ''}
}
private let lock = UnfairLock.allocate()
private var pending: [UnsafeContinuation<Input?, ${'Error' if throwing else 'Never'}>] = []
private var state = State.awaitingSubscription
private var pendingDemand = Subscribers.Demand.none
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(subscription)
let pendingDemand = self.pendingDemand
self.pendingDemand = .none
lock.unlock()
if pendingDemand != .none {
subscription.request(pendingDemand)
}
}
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case .subscribed = state else {
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
return .none
}
precondition(!pending.isEmpty, "Received an output without requesting demand")
let continuation = pending.removeFirst()
lock.unlock()
continuation.resume(returning: input)
return .none
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
% if throwing:
switch state {
case .awaitingSubscription, .subscribed:
if let continuation = pending.first {
state = .terminal(nil)
let remaining = pending.take().dropFirst()
lock.unlock()
switch completion {
case .finished:
continuation.resume(returning: nil)
case .failure(let error):
continuation.resume(throwing: error)
}
remaining.resumeAllWithNil()
} else {
state = .terminal(completion.failure)
lock.unlock()
}
case .terminal:
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
}
% else:
state = .terminal
let pending = self.pending.take()
lock.unlock()
pending.resumeAllWithNil()
% end
}
func cancel() {
lock.lock()
let pending = self.pending.take()
guard case .subscribed(let subscription) = state else {
state = .terminal${'(nil)' if throwing else ''}
lock.unlock()
pending.resumeAllWithNil()
return
}
state = .terminal${'(nil)' if throwing else ''}
lock.unlock()
subscription.cancel()
pending.resumeAllWithNil()
}
fileprivate func next() async ${'throws ' if throwing else ''}-> Input? {
return ${'try ' if throwing else ''}await withUnsafe${'Throwing' if throwing else ''}Continuation { continuation in
lock.lock()
switch state {
case .awaitingSubscription:
pending.append(continuation)
pendingDemand += 1
lock.unlock()
case .subscribed(let subscription):
pending.append(continuation)
lock.unlock()
subscription.request(.max(1))
case .terminal${'(nil)' if throwing else ''}:
lock.unlock()
continuation.resume(returning: nil)
% if throwing:
case .terminal(let error?):
state = .terminal(nil)
lock.unlock()
continuation.resume(throwing: error)
% end
}
}
}
}
}
% end
@available(macOS 10.15, iOS 13.0, watchOS 6.0, tvOS 13.0, *)
extension Sequence {
fileprivate func resumeAllWithNil<Output, Failure: Error>()
where Element == UnsafeContinuation<Output?, Failure>
{
for continuation in self {
continuation.resume(returning: nil)
}
}
}
#endif
Sources/OpenCombine/ConnectablePublisher.swift
-19
View File
@@ -1,19 +0,0 @@
//
// ConnectablePublisher.swift
//
//
// Created by Sergej Jaskiewicz on 14.06.2019.
//
/// A publisher that provides an explicit means of connecting and canceling publication.
///
/// Use `makeConnectable()` to create a `ConnectablePublisher` from any publisher whose
/// failure type is `Never`.
public protocol ConnectablePublisher: Publisher {
/// Connects to the publisher and returns a `Cancellable` instance with which
/// to cancel publishing.
///
/// - Returns: A `Cancellable` instance that can be used to cancel publishing.
func connect() -> Cancellable
}
Sources/OpenCombine/CurrentValueSubject.swift
+11 -10
View File
@@ -7,6 +7,12 @@
/// A subject that wraps a single value and publishes a new element whenever the value
/// changes.
///
/// Unlike `PassthroughSubject`, `CurrentValueSubject` maintains a buffer of the most
/// recently published element.
///
/// Calling `send(_:)` on a `CurrentValueSubject` also updates the current value, making
/// it equivalent to updating the `value` directly.
public final class CurrentValueSubject<Output, Failure: Error>: Subject {
private let lock = UnfairLock.allocate()
@@ -102,8 +108,7 @@ public final class CurrentValueSubject<Output, Failure: Error>: Subject {
}
active = false
self.completion = completion
let downstreams = self.downstreams
self.downstreams.removeAll()
let downstreams = self.downstreams.take()
lock.unlock()
downstreams.forEach { conduit in
conduit.finish(completion: completion)
@@ -175,13 +180,11 @@ extension CurrentValueSubject {
override func finish(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard let downstream = self.downstream else {
guard let downstream = self.downstream.take() else {
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent
self.parent = nil
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
downstreamLock.lock()
@@ -221,13 +224,11 @@ extension CurrentValueSubject {
override func cancel() {
lock.lock()
if self.downstream == nil {
if downstream.take() == nil {
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent
self.parent = nil
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
}
Sources/OpenCombine/CustomCombineIdentifierConvertible.swift
+10
View File
@@ -5,8 +5,18 @@
// Created by Sergej Jaskiewicz on 10.06.2019.
//
/// A protocol for uniquely identifying publisher streams.
///
/// If you create a custom `Subscription` or `Subscriber` type, implement this protocol
/// so that development tools can uniquely identify publisher chains in your app.
/// If your type is a class, OpenCombine provides an implementation of `combineIdentifier`
/// for you.
/// If your type is a structure, set up the identifier as follows:
///
/// let combineIdentifier = CombineIdentifier()
public protocol CustomCombineIdentifierConvertible {
/// A unique identifier for identifying publisher streams.
var combineIdentifier: CombineIdentifier { get }
}
Sources/OpenCombine/Future.swift
+79 -53
View File
@@ -5,9 +5,14 @@
// Created by Max Desiatov on 24/11/2019.
//
/// A publisher that eventually produces one value and then finishes or fails.
/// A publisher that eventually produces a single value and then finishes or fails.
public final class Future<Output, Failure: Error>: Publisher {
/// A type that represents a closure to invoke in the future, when an element or error
/// is available.
///
/// The promise closure receives one parameter: a `Result` that contains either
/// a single element published by a `Future`, or an error.
public typealias Promise = (Result<Output, Failure>) -> Void
private let lock = UnfairLock.allocate()
@@ -16,6 +21,11 @@ public final class Future<Output, Failure: Error>: Publisher {
private var result: Result<Output, Failure>?
/// Creates a publisher that invokes a promise closure when the publisher emits
/// an element.
///
/// - Parameter attemptToFulfill: A `Promise` that the publisher invokes when
/// the publisher emits an element or terminates with an error.
public init(
_ attemptToFulfill: @escaping (@escaping Promise) -> Void
) {
@@ -33,8 +43,7 @@ public final class Future<Output, Failure: Error>: Publisher {
return
}
self.result = result
let downstreams = self.downstreams
self.downstreams.removeAll()
let downstreams = self.downstreams.take()
lock.unlock()
switch result {
case .success(let output):
@@ -77,12 +86,32 @@ extension Future {
CustomPlaygroundDisplayConvertible
where Downstream.Input == Output, Downstream.Failure == Failure
{
private enum State {
case active(Downstream, hasAnyDemand: Bool)
case terminal
fileprivate var parent: Future?
var downstream: Downstream? {
switch self {
case .active(let downstream, hasAnyDemand: _):
return downstream
case .terminal:
return nil
}
}
fileprivate var downstream: Downstream?
var hasAnyDemand: Bool {
switch self {
case .active(_, let hasAnyDemand):
return hasAnyDemand
case .terminal:
return false
}
}
}
fileprivate var hasAnyDemand = false
private var parent: Future?
private var state: State
private var lock = UnfairLock.allocate()
@@ -90,7 +119,7 @@ extension Future {
fileprivate init(parent: Future, downstream: Downstream) {
self.parent = parent
self.downstream = downstream
self.state = .active(downstream, hasAnyDemand: false)
}
deinit {
@@ -98,21 +127,8 @@ extension Future {
downstreamLock.deallocate()
}
fileprivate func fulfill(_ result: Result<Output, Failure>) {
lock.lock()
guard let downstream = self.downstream else {
lock.unlock()
return
}
let parent = self.parent
if case .success = result, !hasAnyDemand {
lock.unlock()
return
}
self.downstream = nil
self.parent = nil
lock.unlock()
downstreamLock.lock()
fileprivate func lockedFulfill(downstream: Downstream,
result: Result<Output, Failure>) {
switch result {
case .success(let output):
_ = downstream.receive(output)
@@ -120,7 +136,27 @@ extension Future {
case .failure(let error):
downstream.receive(completion: .failure(error))
}
}
fileprivate func fulfill(_ result: Result<Output, Failure>) {
lock.lock()
guard case let .active(downstream, hasAnyDemand) = state else {
lock.unlock()
return
}
if case .success = result, !hasAnyDemand {
lock.unlock()
return
}
state = .terminal
lock.unlock()
downstreamLock.lock()
lockedFulfill(downstream: downstream, result: result)
downstreamLock.unlock()
lock.lock()
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
}
@@ -140,47 +176,37 @@ extension Future {
override func request(_ demand: Subscribers.Demand) {
demand.assertNonZero()
lock.lock()
guard let downstream = self.downstream, let parent = self.parent else {
guard case .active(let downstream, hasAnyDemand: _) = state else {
lock.unlock()
return
}
hasAnyDemand = true
state = .active(downstream, hasAnyDemand: true)
parent.lock.lock()
guard let result = parent.result else {
parent.lock.unlock()
if let parent = parent, let result = parent.result {
// If the promise is already resolved, send the result downstream
// immediately
state = .terminal
lock.unlock()
downstreamLock.lock()
lockedFulfill(downstream: downstream, result: result)
downstreamLock.unlock()
parent.disassociate(self)
} else {
lock.unlock()
return
}
parent.lock.unlock()
self.downstream = nil
self.parent = nil
lock.unlock()
downstreamLock.lock()
switch result {
case .success(let output):
_ = downstream.receive(output)
downstream.receive(completion: .finished)
case .failure(let error):
// This branch is not reachable under normal circumstances,
// but may be reachable in case of a race condition.
downstream.receive(completion: .failure(error))
}
downstreamLock.unlock()
parent.disassociate(self)
}
override func cancel() {
lock.lock()
if self.downstream == nil {
switch state {
case .active:
state = .terminal
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
case .terminal:
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent
self.parent = nil
lock.unlock()
parent?.disassociate(self)
}
var description: String { return "Future" }
@@ -190,8 +216,8 @@ extension Future {
defer { lock.unlock() }
let children: [Mirror.Child] = [
("parent", parent as Any),
("downstream", downstream as Any),
("hasAnyDemand", hasAnyDemand),
("downstream", state.downstream as Any),
("hasAnyDemand", state.hasAnyDemand),
("subject", parent as Any)
]
return Mirror(self, children: children)
Sources/OpenCombine/GENERATED-RootProtocols.swift
Generated
+426
View File
@@ -0,0 +1,426 @@
//
//
// Auto-generated from GYB template. DO NOT EDIT!
//
//
//
//
// RootProtocols.swift
// OpenCombine
//
// Created by Sergej Jaskiewicz on 10.06.2019.
//
#if compiler(>=5.7)
/// Declares that a type can transmit a sequence of values over time.
///
/// A publisher delivers elements to one or more `Subscriber` instances.
/// The subscribers `Input` and `Failure` associated types must match the `Output` and
/// `Failure` types declared by the publisher.
/// The publisher implements the `receive(subscriber:)`method to accept a subscriber.
///
/// After this, the publisher can call the following methods on the subscriber:
/// - `receive(subscription:)`: Acknowledges the subscribe request and returns
/// a `Subscription` instance. The subscriber uses the subscription to demand elements
/// from the publisher and can use it to cancel publishing.
/// - `receive(_:)`: Delivers one element from the publisher to the subscriber.
/// - `receive(completion:)`: Informs the subscriber that publishing has ended,
/// either normally or with an error.
///
/// Every `Publisher` must adhere to this contract for downstream subscribers to function
/// correctly.
///
/// Extensions on `Publisher` define a wide variety of _operators_ that you compose to
/// create sophisticated event-processing chains.
/// Each operator returns a type that implements the `Publisher` protocol
/// Most of these types exist as extensions on the `Publishers` enumeration.
/// For example, the `map(_:)` operator returns an instance of `Publishers.Map`.
///
/// # Creating Your Own Publishers
///
/// Rather than implementing the `Publisher` protocol yourself, you can create your own
/// publisher by using one of several types provided by the OpenCombine framework:
///
/// - Use a concrete subclass of `Subject`, such as `PassthroughSubject`, to publish
/// values on-demand by calling its `send(_:)` method.
/// - Use a `CurrentValueSubject` to publish whenever you update the subjects underlying
/// value.
/// - Add the `@Published` annotation to a property of one of your own types. In doing so,
/// the property gains a publisher that emits an event whenever the propertys value
/// changes. See the `Published` type for an example of this approach.
public protocol Publisher<Output, Failure> {
/// The kind of values published by this publisher.
associatedtype Output
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
associatedtype Failure: Error
/// Attaches the specified subscriber to this publisher.
///
/// Always call this function instead of `receive(subscriber:)`.
/// Adopters of `Publisher` must implement `receive(subscriber:)`. The implementation
/// of `subscribe(_:)` provided by `Publisher` calls through to
/// `receive(subscriber:)`.
///
/// - Parameter subscriber: The subscriber to attach to this publisher. After
/// attaching, the subscriber can start to receive values.
func receive<Subscriber: OpenCombine.Subscriber>(subscriber: Subscriber)
where Failure == Subscriber.Failure, Output == Subscriber.Input
}
/// A publisher that exposes a method for outside callers to publish elements.
///
/// A subject is a publisher that you can use to inject values into a stream, by calling
/// its `send()` method. This can be useful for adapting existing imperative code to the
/// Combine model.
public protocol Subject<Output, Failure>: AnyObject, Publisher {
/// Sends a value to the subscriber.
///
/// - Parameter value: The value to send.
func send(_ value: Output)
/// Sends a completion signal to the subscriber.
///
/// - Parameter completion: A `Completion` instance which indicates whether publishing
/// has finished normally or failed with an error.
func send(completion: Subscribers.Completion<Failure>)
/// Sends a subscription to the subscriber.
///
/// This call provides the `Subject` an opportunity to establish demand for any new
/// upstream subscriptions.
///
/// - Parameter subscription: The subscription instance through which the subscriber
/// can request elements.
func send(subscription: Subscription)
}
/// A publisher that provides an explicit means of connecting and canceling publication.
///
/// Use a `ConnectablePublisher` when you need to perform additional configuration or
/// setup prior to producing any elements.
///
/// This publisher doesnt produce any elements until you call its `connect()` method.
///
/// Use `makeConnectable()` to create a `ConnectablePublisher` from any publisher whose
/// failure type is `Never`.
public protocol ConnectablePublisher<Output, Failure>: Publisher {
/// Connects to the publisher, allowing it to produce elements, and returns
/// an instance with which to cancel publishing.
///
/// - Returns: A `Cancellable` instance that you use to cancel publishing.
func connect() -> Cancellable
}
/// A protocol that declares a type that can receive input from a publisher.
///
/// A `Subscriber` instance receives a stream of elements from a `Publisher`, along with
/// life cycle events describing changes to their relationship. A given subscribers
/// `Input` and `Failure` associated types must match the `Output` and `Failure` of its
/// corresponding publisher.
///
/// You connect a subscriber to a publisher by calling the publishers `subscribe(_:)`
/// method. After making this call, the publisher invokes the subscribers
/// `receive(subscription:)` method. This gives the subscriber a `Subscription` instance,
/// which it uses to demand elements from the publisher, and to optionally cancel
/// the subscription. After the subscriber makes an initial demand, the publisher calls
/// `receive(_:)`, possibly asynchronously, to deliver newly-published elements.
/// If the publisher stops publishing, it calls `receive(completion:)`, using a parameter
/// of type `Subscribers.Completion` to indicate whether publishing completes normally or
/// with an error.
///
/// OpenCombine provides the following subscribers as operators on the `Publisher` type:
///
/// - `sink(receiveCompletion:receiveValue:)` executes arbitrary closures when
/// it receives a completion signal and each time it receives a new element.
/// - `assign(to:on:)` writes each newly-received value to a property identified by
/// a key path on a given instance.
public protocol Subscriber<Input, Failure>: CustomCombineIdentifierConvertible {
/// The kind of values this subscriber receives.
associatedtype Input
/// The kind of errors this subscriber might receive.
///
/// Use `Never` if this `Subscriber` cannot receive errors.
associatedtype Failure: Error
/// Tells the subscriber that it has successfully subscribed to the publisher and may
/// request items.
///
/// Use the received `Subscription` to request items from the publisher.
/// - Parameter subscription: A subscription that represents the connection between
/// publisher and subscriber.
func receive(subscription: Subscription)
/// Tells the subscriber that the publisher has produced an element.
///
/// - Parameter input: The published element.
/// - Returns: A `Subscribers.Demand` instance indicating how many more elements
/// the subscriber expects to receive.
func receive(_ input: Input) -> Subscribers.Demand
/// Tells the subscriber that the publisher has completed publishing, either normally
/// or with an error.
///
/// - Parameter completion: A `Subscribers.Completion` case indicating whether
/// publishing completed normally or with an error.
func receive(completion: Subscribers.Completion<Failure>)
}
/// A protocol that defines when and how to execute a closure.
///
/// You can use a scheduler to execute code as soon as possible, or after a future date.
/// Individual scheduler implementations use whatever time-keeping system makes sense
/// for them. Schedulers express this as their `SchedulerTimeType`. Since this type
/// conforms to `SchedulerTimeIntervalConvertible`, you can always express these times
/// with the convenience functions like `.milliseconds(500)`. Schedulers can accept
/// options to control how they execute the actions passed to them. These options may
/// control factors like which threads or dispatch queues execute the actions.
public protocol Scheduler<SchedulerTimeType> {
/// Describes an instant in time for this scheduler.
associatedtype SchedulerTimeType: Strideable
where SchedulerTimeType.Stride: SchedulerTimeIntervalConvertible
/// A type that defines options accepted by the scheduler.
///
/// This type is freely definable by each `Scheduler`. Typically, operations that
/// take a `Scheduler` parameter will also take `SchedulerOptions`.
associatedtype SchedulerOptions
/// This schedulers definition of the current moment in time.
var now: SchedulerTimeType { get }
/// The minimum tolerance allowed by the scheduler.
var minimumTolerance: SchedulerTimeType.Stride { get }
/// Performs the action at the next possible opportunity.
func schedule(options: SchedulerOptions?, _ action: @escaping () -> Void)
/// Performs the action at some time after the specified date.
func schedule(after date: SchedulerTimeType,
tolerance: SchedulerTimeType.Stride,
options: SchedulerOptions?,
_ action: @escaping () -> Void)
/// Performs the action at some time after the specified date, at the specified
/// frequency, optionally taking into account tolerance if possible.
func schedule(after date: SchedulerTimeType,
interval: SchedulerTimeType.Stride,
tolerance: SchedulerTimeType.Stride,
options: SchedulerOptions?,
_ action: @escaping () -> Void) -> Cancellable
}
#else
/// Declares that a type can transmit a sequence of values over time.
///
/// A publisher delivers elements to one or more `Subscriber` instances.
/// The subscribers `Input` and `Failure` associated types must match the `Output` and
/// `Failure` types declared by the publisher.
/// The publisher implements the `receive(subscriber:)`method to accept a subscriber.
///
/// After this, the publisher can call the following methods on the subscriber:
/// - `receive(subscription:)`: Acknowledges the subscribe request and returns
/// a `Subscription` instance. The subscriber uses the subscription to demand elements
/// from the publisher and can use it to cancel publishing.
/// - `receive(_:)`: Delivers one element from the publisher to the subscriber.
/// - `receive(completion:)`: Informs the subscriber that publishing has ended,
/// either normally or with an error.
///
/// Every `Publisher` must adhere to this contract for downstream subscribers to function
/// correctly.
///
/// Extensions on `Publisher` define a wide variety of _operators_ that you compose to
/// create sophisticated event-processing chains.
/// Each operator returns a type that implements the `Publisher` protocol
/// Most of these types exist as extensions on the `Publishers` enumeration.
/// For example, the `map(_:)` operator returns an instance of `Publishers.Map`.
///
/// # Creating Your Own Publishers
///
/// Rather than implementing the `Publisher` protocol yourself, you can create your own
/// publisher by using one of several types provided by the OpenCombine framework:
///
/// - Use a concrete subclass of `Subject`, such as `PassthroughSubject`, to publish
/// values on-demand by calling its `send(_:)` method.
/// - Use a `CurrentValueSubject` to publish whenever you update the subjects underlying
/// value.
/// - Add the `@Published` annotation to a property of one of your own types. In doing so,
/// the property gains a publisher that emits an event whenever the propertys value
/// changes. See the `Published` type for an example of this approach.
public protocol Publisher {
/// The kind of values published by this publisher.
associatedtype Output
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
associatedtype Failure: Error
/// Attaches the specified subscriber to this publisher.
///
/// Always call this function instead of `receive(subscriber:)`.
/// Adopters of `Publisher` must implement `receive(subscriber:)`. The implementation
/// of `subscribe(_:)` provided by `Publisher` calls through to
/// `receive(subscriber:)`.
///
/// - Parameter subscriber: The subscriber to attach to this publisher. After
/// attaching, the subscriber can start to receive values.
func receive<Subscriber: OpenCombine.Subscriber>(subscriber: Subscriber)
where Failure == Subscriber.Failure, Output == Subscriber.Input
}
/// A publisher that exposes a method for outside callers to publish elements.
///
/// A subject is a publisher that you can use to inject values into a stream, by calling
/// its `send()` method. This can be useful for adapting existing imperative code to the
/// Combine model.
public protocol Subject: AnyObject, Publisher {
/// Sends a value to the subscriber.
///
/// - Parameter value: The value to send.
func send(_ value: Output)
/// Sends a completion signal to the subscriber.
///
/// - Parameter completion: A `Completion` instance which indicates whether publishing
/// has finished normally or failed with an error.
func send(completion: Subscribers.Completion<Failure>)
/// Sends a subscription to the subscriber.
///
/// This call provides the `Subject` an opportunity to establish demand for any new
/// upstream subscriptions.
///
/// - Parameter subscription: The subscription instance through which the subscriber
/// can request elements.
func send(subscription: Subscription)
}
/// A publisher that provides an explicit means of connecting and canceling publication.
///
/// Use a `ConnectablePublisher` when you need to perform additional configuration or
/// setup prior to producing any elements.
///
/// This publisher doesnt produce any elements until you call its `connect()` method.
///
/// Use `makeConnectable()` to create a `ConnectablePublisher` from any publisher whose
/// failure type is `Never`.
public protocol ConnectablePublisher: Publisher {
/// Connects to the publisher, allowing it to produce elements, and returns
/// an instance with which to cancel publishing.
///
/// - Returns: A `Cancellable` instance that you use to cancel publishing.
func connect() -> Cancellable
}
/// A protocol that declares a type that can receive input from a publisher.
///
/// A `Subscriber` instance receives a stream of elements from a `Publisher`, along with
/// life cycle events describing changes to their relationship. A given subscribers
/// `Input` and `Failure` associated types must match the `Output` and `Failure` of its
/// corresponding publisher.
///
/// You connect a subscriber to a publisher by calling the publishers `subscribe(_:)`
/// method. After making this call, the publisher invokes the subscribers
/// `receive(subscription:)` method. This gives the subscriber a `Subscription` instance,
/// which it uses to demand elements from the publisher, and to optionally cancel
/// the subscription. After the subscriber makes an initial demand, the publisher calls
/// `receive(_:)`, possibly asynchronously, to deliver newly-published elements.
/// If the publisher stops publishing, it calls `receive(completion:)`, using a parameter
/// of type `Subscribers.Completion` to indicate whether publishing completes normally or
/// with an error.
///
/// OpenCombine provides the following subscribers as operators on the `Publisher` type:
///
/// - `sink(receiveCompletion:receiveValue:)` executes arbitrary closures when
/// it receives a completion signal and each time it receives a new element.
/// - `assign(to:on:)` writes each newly-received value to a property identified by
/// a key path on a given instance.
public protocol Subscriber: CustomCombineIdentifierConvertible {
/// The kind of values this subscriber receives.
associatedtype Input
/// The kind of errors this subscriber might receive.
///
/// Use `Never` if this `Subscriber` cannot receive errors.
associatedtype Failure: Error
/// Tells the subscriber that it has successfully subscribed to the publisher and may
/// request items.
///
/// Use the received `Subscription` to request items from the publisher.
/// - Parameter subscription: A subscription that represents the connection between
/// publisher and subscriber.
func receive(subscription: Subscription)
/// Tells the subscriber that the publisher has produced an element.
///
/// - Parameter input: The published element.
/// - Returns: A `Subscribers.Demand` instance indicating how many more elements
/// the subscriber expects to receive.
func receive(_ input: Input) -> Subscribers.Demand
/// Tells the subscriber that the publisher has completed publishing, either normally
/// or with an error.
///
/// - Parameter completion: A `Subscribers.Completion` case indicating whether
/// publishing completed normally or with an error.
func receive(completion: Subscribers.Completion<Failure>)
}
/// A protocol that defines when and how to execute a closure.
///
/// You can use a scheduler to execute code as soon as possible, or after a future date.
/// Individual scheduler implementations use whatever time-keeping system makes sense
/// for them. Schedulers express this as their `SchedulerTimeType`. Since this type
/// conforms to `SchedulerTimeIntervalConvertible`, you can always express these times
/// with the convenience functions like `.milliseconds(500)`. Schedulers can accept
/// options to control how they execute the actions passed to them. These options may
/// control factors like which threads or dispatch queues execute the actions.
public protocol Scheduler {
/// Describes an instant in time for this scheduler.
associatedtype SchedulerTimeType: Strideable
where SchedulerTimeType.Stride: SchedulerTimeIntervalConvertible
/// A type that defines options accepted by the scheduler.
///
/// This type is freely definable by each `Scheduler`. Typically, operations that
/// take a `Scheduler` parameter will also take `SchedulerOptions`.
associatedtype SchedulerOptions
/// This schedulers definition of the current moment in time.
var now: SchedulerTimeType { get }
/// The minimum tolerance allowed by the scheduler.
var minimumTolerance: SchedulerTimeType.Stride { get }
/// Performs the action at the next possible opportunity.
func schedule(options: SchedulerOptions?, _ action: @escaping () -> Void)
/// Performs the action at some time after the specified date.
func schedule(after date: SchedulerTimeType,
tolerance: SchedulerTimeType.Stride,
options: SchedulerOptions?,
_ action: @escaping () -> Void)
/// Performs the action at some time after the specified date, at the specified
/// frequency, optionally taking into account tolerance if possible.
func schedule(after date: SchedulerTimeType,
interval: SchedulerTimeType.Stride,
tolerance: SchedulerTimeType.Stride,
options: SchedulerOptions?,
_ action: @escaping () -> Void) -> Cancellable
}
#endif
Sources/OpenCombine/Helpers/ConduitList.swift
+6 -4
View File
@@ -11,6 +11,12 @@ internal enum ConduitList<Output, Failure: Error> {
case many(Set<ConduitBase<Output, Failure>>)
}
extension ConduitList: HasDefaultValue {
init() {
self = .empty
}
}
extension ConduitList {
internal mutating func insert(_ conduit: ConduitBase<Output, Failure>) {
switch self {
@@ -50,8 +56,4 @@ extension ConduitList {
self = .many(set)
}
}
internal mutating func removeAll() {
self = .empty
}
}
Sources/OpenCombine/Helpers/DebugHook.swift
+177
View File
@@ -0,0 +1,177 @@
//
// DebugHook.swift
//
//
// Created by Sergej Jaskiewicz on 27.09.2020.
//
internal final class DebugHook {
private struct Handler: Hashable {
let handler: _Introspection
static func == (lhs: Handler, rhs: Handler) -> Bool {
return lhs.handler === rhs.handler
}
func hash(into hasher: inout Hasher) {
hasher.combine(ObjectIdentifier(handler))
}
}
internal static func getGlobalHook() -> DebugHook? {
globalLock.lock()
defer { globalLock.unlock() }
return globalHook
}
internal static func enable(_ handler: _Introspection) {
let hook: DebugHook
DebugHook.globalLock.lock()
defer { DebugHook.globalLock.unlock() }
if let _hook = DebugHook.globalHook {
hook = _hook
} else {
hook = DebugHook()
DebugHook.globalHook = hook
}
hook.lock.lock()
defer { hook.lock.unlock() }
hook.handlers.insert(Handler(handler: handler))
}
internal static func disable(_ handler: _Introspection) {
DebugHook.globalLock.lock()
defer { DebugHook.globalLock.unlock() }
guard let hook = DebugHook.globalHook else { return }
hook.lock.lock()
hook.handlers.remove(Handler(handler: handler))
let noMoreHandlers = hook.handlers.isEmpty
hook.lock.unlock()
if noMoreHandlers {
DebugHook.globalHook = nil
}
}
internal static func handlerIsEnabled(_ handler: _Introspection) -> Bool {
DebugHook.globalLock.lock()
defer { DebugHook.globalLock.unlock() }
guard let hook = DebugHook.globalHook else { return false }
hook.lock.lock()
defer { hook.lock.unlock() }
return hook.handlers.contains(Handler(handler: handler))
}
private static var globalHook: DebugHook?
private static let globalLock = UnfairLock.allocate()
private let lock = UnfairLock.allocate()
private var handlers = Set<Handler>()
internal var debugHandlers: [_Introspection] {
lock.lock()
defer { lock.unlock() }
return handlers.map { $0.handler }
}
private init() {}
deinit {
lock.deallocate()
}
internal func willReceive<Upstream: Publisher, Downstream: Subscriber>(
publisher: Upstream,
subscriber: Downstream
) where Upstream.Failure == Downstream.Failure, Upstream.Output == Downstream.Input {
for debugHandler in debugHandlers {
debugHandler.willReceive(publisher: publisher, subscriber: subscriber)
}
}
internal func didReceive<Upstream: Publisher, Downstream: Subscriber>(
publisher: Upstream,
subscriber: Downstream
) where Upstream.Failure == Downstream.Failure, Upstream.Output == Downstream.Input {
for debugHandler in debugHandlers {
debugHandler.didReceive(publisher: publisher, subscriber: subscriber)
}
}
internal func willReceive<Downstream: Subscriber>(subscriber: Downstream,
subscription: Subscription) {
for debugHandler in debugHandlers {
debugHandler.willReceive(subscriber: subscriber, subscription: subscription)
}
}
internal func didReceive<Downstream: Subscriber>(subscriber: Downstream,
subscription: Subscription) {
for debugHandler in debugHandlers {
debugHandler.didReceive(subscriber: subscriber, subscription: subscription)
}
}
internal func willReceive<Downstream: Subscriber>(subscriber: Downstream,
input: Downstream.Input) {
for debugHandler in debugHandlers {
debugHandler.willReceive(subscriber: subscriber, input: input)
}
}
internal func didReceive<Downstream: Subscriber>(
subscriber: Downstream,
input: Downstream.Input,
resultingDemand: Subscribers.Demand
) {
for debugHandler in debugHandlers {
debugHandler.didReceive(subscriber: subscriber,
input: input,
resultingDemand: resultingDemand)
}
}
internal func willReceive<Downstream: Subscriber>(
subscriber: Downstream,
completion: Subscribers.Completion<Downstream.Failure>
) {
for debugHandler in debugHandlers {
debugHandler.willReceive(subscriber: subscriber, completion: completion)
}
}
internal func didReceive<Downstream: Subscriber>(
subscriber: Downstream,
completion: Subscribers.Completion<Downstream.Failure>
) {
for debugHandler in debugHandlers {
debugHandler.didReceive(subscriber: subscriber, completion: completion)
}
}
internal func willRequest(subscription: Subscription, demand: Subscribers.Demand) {
for debugHandler in debugHandlers {
debugHandler.willRequest(subscription: subscription, demand)
}
}
internal func didRequest(subscription: Subscription, demand: Subscribers.Demand) {
for debugHandler in debugHandlers {
debugHandler.didRequest(subscription: subscription, demand)
}
}
internal func willCancel(subscription: Subscription) {
for debugHandler in debugHandlers {
debugHandler.willCancel(subscription: subscription)
}
}
internal func didCancel(subscription: Subscription) {
for debugHandler in debugHandlers {
debugHandler.didCancel(subscription: subscription)
}
}
}
Sources/OpenCombine/Helpers/FilterProducer.swift
-2
View File
@@ -24,8 +24,6 @@ internal class FilterProducer<Downstream: Subscriber,
CustomReflectable
where Downstream.Input == Output
{
// NOTE: This class has been audited for thread safety
// MARK: - State
private enum State {
Sources/OpenCombine/Helpers/Locking.swift
+17
View File
@@ -9,5 +9,22 @@
import COpenCombineHelpers
#endif
#if WASI
internal struct __UnfairLock { // swiftlint:disable:this type_name
internal static func allocate() -> UnfairLock { return .init() }
internal func lock() {}
internal func unlock() {}
internal func assertOwner() {}
internal func deallocate() {}
}
internal struct __UnfairRecursiveLock { // swiftlint:disable:this type_name
internal static func allocate() -> UnfairRecursiveLock { return .init() }
internal func lock() {}
internal func unlock() {}
internal func deallocate() {}
}
#endif // WASI
internal typealias UnfairLock = __UnfairLock
internal typealias UnfairRecursiveLock = __UnfairRecursiveLock
Sources/OpenCombine/Helpers/PublishedSubject.swift
+211
View File
@@ -0,0 +1,211 @@
//
// PublishedSubject.swift
//
//
// Created by Sergej Jaskiewicz on 29.10.2020.
//
internal final class PublishedSubject<Output>: Subject {
internal typealias Failure = Never
private let lock = UnfairLock.allocate()
private var downstreams = ConduitList<Output, Failure>.empty
private var currentValue: Output
private var upstreamSubscriptions: [Subscription] = []
private var hasAnyDownstreamDemand = false
private var changePublisher: ObservableObjectPublisher?
internal var value: Output {
get {
lock.lock()
defer { lock.unlock() }
return currentValue
}
set {
send(newValue)
}
}
internal var objectWillChange: ObservableObjectPublisher? {
get {
lock.lock()
defer { lock.unlock() }
return changePublisher
}
set {
lock.lock()
defer { lock.unlock() }
changePublisher = newValue
}
}
internal init(_ value: Output) {
self.currentValue = value
}
deinit {
for subscription in upstreamSubscriptions {
subscription.cancel()
}
lock.deallocate()
}
internal func send(subscription: Subscription) {
lock.lock()
upstreamSubscriptions.append(subscription)
lock.unlock()
subscription.request(.unlimited)
}
internal func receive<Downstream: Subscriber>(subscriber: Downstream)
where Downstream.Input == Output, Downstream.Failure == Never
{
lock.lock()
let conduit = Conduit(parent: self, downstream: subscriber)
downstreams.insert(conduit)
lock.unlock()
subscriber.receive(subscription: conduit)
}
internal func send(_ input: Output) {
lock.lock()
let downstreams = self.downstreams
let changePublisher = self.changePublisher
lock.unlock()
changePublisher?.send()
downstreams.forEach { conduit in
conduit.offer(input)
}
lock.lock()
currentValue = input
lock.unlock()
}
internal func send(completion: Subscribers.Completion<Never>) {
fatalError("unreachable")
}
private func disassociate(_ conduit: ConduitBase<Output, Failure>) {
lock.lock()
downstreams.remove(conduit)
lock.unlock()
}
}
extension PublishedSubject {
private final class Conduit<Downstream: Subscriber>
: ConduitBase<Output, Failure>,
CustomStringConvertible,
CustomReflectable,
CustomPlaygroundDisplayConvertible
where Downstream.Input == Output, Downstream.Failure == Never
{
fileprivate var parent: PublishedSubject?
fileprivate var downstream: Downstream?
fileprivate var demand = Subscribers.Demand.none
private var lock = UnfairLock.allocate()
private var downstreamLock = UnfairRecursiveLock.allocate()
private var deliveredCurrentValue = false
fileprivate init(parent: PublishedSubject,
downstream: Downstream) {
self.parent = parent
self.downstream = downstream
}
deinit {
lock.deallocate()
downstreamLock.deallocate()
}
override func offer(_ output: Output) {
lock.lock()
guard demand > 0, let downstream = self.downstream else {
deliveredCurrentValue = false
lock.unlock()
return
}
demand -= 1
deliveredCurrentValue = true
lock.unlock()
downstreamLock.lock()
let newDemand = downstream.receive(output)
downstreamLock.unlock()
guard newDemand > 0 else { return }
lock.lock()
demand += newDemand
lock.unlock()
}
override func request(_ demand: Subscribers.Demand) {
demand.assertNonZero()
lock.lock()
guard let downstream = self.downstream else {
lock.unlock()
return
}
if deliveredCurrentValue {
self.demand += demand
lock.unlock()
return
}
// Hasn't yet delivered the current value
self.demand += demand
deliveredCurrentValue = true
if let currentValue = self.parent?.value {
self.demand -= 1
lock.unlock()
downstreamLock.lock()
let newDemand = downstream.receive(currentValue)
downstreamLock.unlock()
guard newDemand > 0 else { return }
lock.lock()
self.demand += newDemand
}
lock.unlock()
}
override func cancel() {
lock.lock()
if self.downstream == nil {
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
}
var description: String { return "PublishedSubject" }
var customMirror: Mirror {
lock.lock()
defer { lock.unlock() }
let children: [Mirror.Child] = [
("parent", parent as Any),
("downstream", downstream as Any),
("demand", demand),
("subject", parent as Any)
]
return Mirror(self, children: children)
}
var playgroundDescription: Any { return description }
}
}
Sources/OpenCombine/Helpers/PublishedSubscriber.swift
+32
View File
@@ -0,0 +1,32 @@
//
// PublishedSubscriber.swift
//
//
// Created by Sergej Jaskiewicz on 29.10.2020.
//
internal struct PublishedSubscriber<Value>: Subscriber {
internal typealias Input = Value
internal typealias Failure = Never
internal let combineIdentifier = CombineIdentifier()
private weak var subject: PublishedSubject<Value>?
internal init(_ subject: PublishedSubject<Value>) {
self.subject = subject
}
internal func receive(subscription: Subscription) {
subject?.send(subscription: subscription)
}
internal func receive(_ input: Value) -> Subscribers.Demand {
subject?.send(input)
return .none
}
internal func receive(completion: Subscribers.Completion<Never>) {}
}
Sources/OpenCombine/Helpers/ReduceProducer.swift
+3 -4
View File
@@ -48,8 +48,6 @@ internal class ReduceProducer<Downstream: Subscriber,
private var upstreamCompleted = false
private var empty = true
internal init(downstream: Downstream, initial: Output?, reduce: Reducer) {
self.downstream = downstream
self.initial = initial
@@ -100,7 +98,9 @@ internal class ReduceProducer<Downstream: Subscriber,
return
}
upstreamCompleted = true
self.completed = downstreamRequested || empty
if downstreamRequested {
self.completed = true
}
let completed = self.completed
let result = self.result
lock.unlock()
@@ -157,7 +157,6 @@ extension ReduceProducer: Subscriber {
lock.unlock()
return .none
}
empty = false
lock.unlock()
// Combine doesn't hold the lock when calling `receive(newValue:)`.
Sources/OpenCombine/Helpers/SubjectSubscriber.swift
+1 -2
View File
@@ -5,7 +5,6 @@
// Created by Sergej Jaskiewicz on 16/09/2019.
//
// NOTE: This class has been audited for thread safety.
internal final class SubjectSubscriber<Downstream: Subject>
: Subscriber,
CustomStringConvertible,
@@ -14,7 +13,7 @@ internal final class SubjectSubscriber<Downstream: Subject>
Subscription
{
private let lock = UnfairLock.allocate()
private var downstreamSubject: Downstream?
private weak var downstreamSubject: Downstream?
private var upstreamSubscription: Subscription?
private var isCancelled: Bool { return downstreamSubject == nil }
Sources/OpenCombine/Helpers/SubscriberTap.swift
+69
View File
@@ -0,0 +1,69 @@
//
// SubscriberTap.swift
//
//
// Created by Sergej Jaskiewicz on 27.09.2020.
//
internal protocol SubscriberTapMarker {
var inner: Any { mutating get }
}
internal struct SubscriberTap<Subscriber: OpenCombine.Subscriber>
: OpenCombine.Subscriber,
CustomStringConvertible,
SubscriberTapMarker
{
internal typealias Input = Subscriber.Input
internal typealias Failure = Subscriber.Failure
private let subscriber: Subscriber
internal lazy var inner: Any = AnySubscriber(self.subscriber)
internal init(subscriber: Subscriber) {
self.subscriber = subscriber
}
internal var combineIdentifier: CombineIdentifier {
return subscriber.combineIdentifier
}
internal func receive(subscription: Subscription) {
let hook = DebugHook.getGlobalHook()
if let subscriptionTap = subscription as? SubscriptionTap {
hook?.willReceive(subscriber: subscriber,
subscription: subscriptionTap.subscription)
subscriber.receive(subscription: subscriptionTap)
hook?.didReceive(subscriber: subscriber,
subscription: subscriptionTap.subscription)
} else {
hook?.willReceive(subscriber: subscriber, subscription: subscription)
subscriber
.receive(subscription: SubscriptionTap(subscription: subscription))
hook?.didReceive(subscriber: subscriber, subscription: subscription)
}
}
internal func receive(_ input: Input) -> Subscribers.Demand {
let hook = DebugHook.getGlobalHook()
hook?.willReceive(subscriber: subscriber, input: input)
let newDemand = subscriber.receive(input)
hook?.didReceive(subscriber: subscriber,
input: input,
resultingDemand: newDemand)
return newDemand
}
internal func receive(completion: Subscribers.Completion<Subscriber.Failure>) {
let hook = DebugHook.getGlobalHook()
hook?.willReceive(subscriber: subscriber, completion: completion)
subscriber.receive(completion: completion)
hook?.didReceive(subscriber: subscriber, completion: completion)
}
internal var description: String {
return String(describing: subscriber)
}
}
Sources/OpenCombine/Helpers/SubscriptionStatus.swift
+10
View File
@@ -8,6 +8,7 @@
internal enum SubscriptionStatus {
case awaitingSubscription
case subscribed(Subscription)
case pendingTerminal(Subscription)
case terminal
}
@@ -20,4 +21,13 @@ extension SubscriptionStatus {
return false
}
}
internal var subscription: Subscription? {
switch self {
case .awaitingSubscription, .terminal:
return nil
case let .subscribed(subscription), let .pendingTerminal(subscription):
return subscription
}
}
}
Sources/OpenCombine/Helpers/SubscriptionTap.swift
+33
View File
@@ -0,0 +1,33 @@
//
// SubscriptionTap.swift
//
//
// Created by Sergej Jaskiewicz on 27.09.2020.
//
internal struct SubscriptionTap: Subscription, CustomStringConvertible {
internal let subscription: Subscription
internal var combineIdentifier: CombineIdentifier {
return subscription.combineIdentifier
}
internal func request(_ demand: Subscribers.Demand) {
let hook = DebugHook.getGlobalHook()
hook?.willRequest(subscription: subscription, demand: demand)
subscription.request(demand)
hook?.didRequest(subscription: subscription, demand: demand)
}
internal func cancel() {
let hook = DebugHook.getGlobalHook()
hook?.willCancel(subscription: subscription)
subscription.cancel()
hook?.didCancel(subscription: subscription)
}
internal var description: String {
return String(describing: subscription)
}
}
Sources/OpenCombine/Helpers/Utils.swift
+30
View File
@@ -0,0 +1,30 @@
//
// Utils.swift
//
//
// Created by Sergej Jaskiewicz on 28.08.2021.
//
internal protocol HasDefaultValue {
init()
}
extension HasDefaultValue {
@inline(__always)
internal mutating func take() -> Self {
let taken = self
self = .init()
return taken
}
}
extension Array: HasDefaultValue {}
extension Dictionary: HasDefaultValue {}
extension Optional: HasDefaultValue {
init() {
self = nil
}
}
Sources/OpenCombine/ImmediateScheduler.swift
+24 -2
View File
@@ -8,8 +8,8 @@
/// A scheduler for performing synchronous actions.
///
/// You can only use this scheduler for immediate actions. If you attempt to schedule
/// actions after a specific date, this scheduler ignores the date and performs
/// them immediately.
/// actions after a specific date, this scheduler ignores the date and performs them
/// immediately.
public struct ImmediateScheduler: Scheduler {
/// The time type used by the immediate scheduler.
@@ -41,29 +41,42 @@ public struct ImmediateScheduler: Scheduler {
Codable,
SchedulerTimeIntervalConvertible {
/// The type used when evaluating floating-point literals.
public typealias FloatLiteralType = Double
/// The type used when evaluating integer literals.
public typealias IntegerLiteralType = Int
/// The type used for expressing the strides magnitude.
public typealias Magnitude = Int
/// The value of this time interval in seconds.
public var magnitude: Int
/// Creates an immediate scheduler time interval from the given time interval.
@inlinable
public init(_ value: Int) {
magnitude = value
}
/// Creates an immediate scheduler time interval from an integer seconds
/// value.
@inlinable
public init(integerLiteral value: Int) {
self.init(value)
}
/// Creates an immediate scheduler time interval from a floating-point seconds
/// value.
@inlinable
public init(floatLiteral value: Double) {
self.init(Int(value))
}
/// Creates an immediate scheduler time interval from a binary integer type.
///
/// If `exactly` cant convert to an `Int`, the resulting time interval is
/// `nil`.
@inlinable
public init?<BinaryIntegerType: BinaryInteger>(
exactly source: BinaryIntegerType
@@ -119,6 +132,7 @@ public struct ImmediateScheduler: Scheduler {
}
}
/// A type that defines options accepted by the immediate scheduler.
public typealias SchedulerOptions = Never
/// The shared instance of the immediate scheduler.
@@ -127,15 +141,21 @@ public struct ImmediateScheduler: Scheduler {
/// the shared instance.
public static let shared = ImmediateScheduler()
/// Performs the action at the next possible opportunity.
@inlinable
public func schedule(options: SchedulerOptions?, _ action: @escaping () -> Void) {
action()
}
/// The immediate schedulers definition of the current moment in time.
public var now: SchedulerTimeType { return SchedulerTimeType() }
/// The minimum tolerance allowed by the immediate scheduler.
public var minimumTolerance: SchedulerTimeType.Stride { return 0 }
/// Performs the action at some time after the specified date.
///
/// The immediate scheduler ignores `date` and performs the action immediately.
public func schedule(after date: SchedulerTimeType,
tolerance: SchedulerTimeType.Stride,
options: SchedulerOptions?,
@@ -145,6 +165,8 @@ public struct ImmediateScheduler: Scheduler {
/// Performs the action at some time after the specified date, at the specified
/// frequency, optionally taking into account tolerance if possible.
///
/// The immediate scheduler ignores `date` and performs the action immediately.
public func schedule(after date: SchedulerTimeType,
interval: SchedulerTimeType.Stride,
tolerance: SchedulerTimeType.Stride,
Sources/OpenCombine/ObservableObject.swift
+60 -25
View File
@@ -7,8 +7,8 @@
/// A type of object with a publisher that emits before the object has changed.
///
/// By default an `ObservableObject` will synthesize an `objectWillChange`
/// publisher that emits before any of its `@Published` properties changes:
/// By default an `ObservableObject` synthesizes an `objectWillChange` publisher that
/// emits the changed value before any of its `@Published` properties changes.
///
/// class Contact : ObservableObject {
/// @Published var name: String
@@ -25,11 +25,13 @@
/// }
///
/// let john = Contact(name: "John Appleseed", age: 24)
/// john.objectWillChange.sink { _ in print("will change") }
/// print(john.haveBirthday)
/// // Prints "will change"
/// cancellable = john.objectWillChange
/// .sink { _ in
/// print("\(john.age) will change")
/// }
/// print(john.haveBirthday())
/// // Prints "24 will change"
/// // Prints "25"
///
public protocol ObservableObject: AnyObject {
/// The type of publisher that emits before the object has changed.
@@ -40,27 +42,59 @@ public protocol ObservableObject: AnyObject {
var objectWillChange: ObjectWillChangePublisher { get }
}
extension ObservableObject where ObjectWillChangePublisher == ObservableObjectPublisher {
// swiftlint:disable let_var_whitespace
#if swift(>=5.1)
/// A publisher that emits before the object has changed.
@available(*, unavailable, message: """
The default implementation of objectWillChange is not available yet. \
It's being worked on in \
https://github.com/broadwaylamb/OpenCombine/pull/97
""")
public var objectWillChange: ObservableObjectPublisher {
fatalError("unimplemented")
}
#else
public var objectWillChange: ObservableObjectPublisher {
return ObservableObjectPublisher()
}
#endif
// swiftlint:enable let_var_whitespace
private protocol _ObservableObjectProperty {
var objectWillChange: ObservableObjectPublisher? { get nonmutating set }
}
/// The default publisher of an `ObservableObject`.
#if swift(>=5.1)
extension Published: _ObservableObjectProperty {}
extension ObservableObject where ObjectWillChangePublisher == ObservableObjectPublisher {
/// A publisher that emits before the object has changed.
public var objectWillChange: ObservableObjectPublisher {
var installedPublisher: ObservableObjectPublisher?
var reflection: Mirror? = Mirror(reflecting: self)
while let aClass = reflection {
for (_, property) in aClass.children {
guard let property = property as? _ObservableObjectProperty else {
// Visit other fields until we meet a @Published field
continue
}
// Now we know that the field is @Published.
if let alreadyInstalledPublisher = property.objectWillChange {
installedPublisher = alreadyInstalledPublisher
// Don't visit other fields, as all @Published fields
// already have a publisher installed.
break
}
// Okay, this field doesn't have a publisher installed.
// This means that other fields don't have it either
// (because we install it only once and fields can't be added at runtime).
var lazilyCreatedPublisher: ObjectWillChangePublisher {
if let publisher = installedPublisher {
return publisher
}
let publisher = ObservableObjectPublisher()
installedPublisher = publisher
return publisher
}
property.objectWillChange = lazilyCreatedPublisher
// Continue visiting other fields.
}
reflection = aClass.superclassMirror
}
return installedPublisher ?? ObservableObjectPublisher()
}
}
#endif
/// A publisher that publishes changes from observable objects.
public final class ObservableObjectPublisher: Publisher {
public typealias Output = Void
@@ -74,6 +108,7 @@ public final class ObservableObjectPublisher: Publisher {
// TODO: Combine needs this for some reason
private var identifier: ObjectIdentifier?
/// Creates an observable object publisher instance.
public init() {}
deinit {
Sources/OpenCombine/PassthroughSubject.swift
+13 -13
View File
@@ -5,10 +5,15 @@
// Created by Sergej Jaskiewicz on 11.06.2019.
//
/// A subject that passes along values and completion.
/// A subject that broadcasts elements to downstream subscribers.
///
/// Use a `PassthroughSubject` in unit tests when you want a publisher than can publish
/// specific values on-demand during tests.
/// As a concrete implementation of `Subject`, the `PassthroughSubject` provides
/// a convenient way to adapt existing imperative code to the Combine model.
///
/// Unlike `CurrentValueSubject`, a `PassthroughSubject` doesnt have an initial value or
/// a buffer of the most recently-published element.
/// A `PassthroughSubject` drops values if there are no subscribers, or its current demand
/// is zero.
public final class PassthroughSubject<Output, Failure: Error>: Subject {
private let lock = UnfairLock.allocate()
@@ -80,8 +85,7 @@ public final class PassthroughSubject<Output, Failure: Error>: Subject {
}
active = false
self.completion = completion
let downstreams = self.downstreams
self.downstreams.removeAll()
let downstreams = self.downstreams.take()
lock.unlock()
downstreams.forEach { conduit in
conduit.finish(completion: completion)
@@ -163,13 +167,11 @@ extension PassthroughSubject {
override func finish(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard let downstream = self.downstream else {
guard let downstream = self.downstream.take() else {
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent
self.parent = nil
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
downstreamLock.lock()
@@ -192,13 +194,11 @@ extension PassthroughSubject {
override func cancel() {
lock.lock()
if self.downstream == nil {
if downstream.take() == nil {
lock.unlock()
return
}
self.downstream = nil
let parent = self.parent
self.parent = nil
let parent = self.parent.take()
lock.unlock()
parent?.disassociate(self)
}
Sources/OpenCombine/Published.swift
+163 -39
View File
@@ -6,29 +6,83 @@
//
#if swift(>=5.1)
/// Adds a `Publisher` to a property.
extension Publisher where Failure == Never {
/// Republishes elements received from a publisher, by assigning them to a property
/// marked as a publisher.
///
/// Use this operator when you want to receive elements from a publisher and republish
/// them through a property marked with the `@Published` attribute. The `assign(to:)`
/// operator manages the life cycle of the subscription, canceling the subscription
/// automatically when the `Published` instance deinitializes. Because of this,
/// the `assign(to:)` operator doesn't return an `AnyCancellable` that you're
/// responsible for like `assign(to:on:)` does.
///
/// The example below shows a model class that receives elements from an internal
/// `Timer.TimerPublisher`, and assigns them to a `@Published` property called
/// `lastUpdated`:
///
/// class MyModel: ObservableObject {
/// @Published var lastUpdated: Date = Date()
/// init() {
/// Timer.publish(every: 1.0, on: .main, in: .common)
/// .autoconnect()
/// .assign(to: $lastUpdated)
/// }
/// }
///
/// If you instead implemented `MyModel` with `assign(to: lastUpdated, on: self)`,
/// storing the returned `AnyCancellable` instance could cause a reference cycle,
/// because the `Subscribers.Assign` subscriber would hold a strong reference
/// to `self`. Using `assign(to:)` solves this problem.
///
/// - Parameter published: A property marked with the `@Published` attribute, which
/// receives and republishes all elements received from the upstream publisher.
public func assign(to published: inout Published<Output>.Publisher) {
subscribe(PublishedSubscriber(published.subject))
}
}
/// A type that publishes a property marked with an attribute.
///
/// Properties annotated with `@Published` contain both the stored value
/// and a publisher which sends any new values after the property value
/// has been sent. New subscribers will receive the current value
/// of the property first.
/// Note that the `@Published` property is class-constrained.
/// Use it with properties of classes, not with non-class types like structures.
/// Publishing a property with the `@Published` attribute creates a publisher of this
/// type. You access the publisher with the `$` operator, as shown here:
///
/// class Weather {
/// @Published var temperature: Double
/// init(temperature: Double) {
/// self.temperature = temperature
/// }
/// }
///
/// let weather = Weather(temperature: 20)
/// cancellable = weather.$temperature
/// .sink() {
/// print ("Temperature now: \($0)")
/// }
/// weather.temperature = 25
///
/// // Prints:
/// // Temperature now: 20.0
/// // Temperature now: 25.0
///
/// When the property changes, publishing occurs in the property's `willSet` block,
/// meaning subscribers receive the new value before it's actually set on the property.
/// In the above example, the second time the sink executes its closure, it receives
/// the parameter value `25`. However, if the closure evaluated `weather.temperature`,
/// the value returned would be `20`.
///
/// > Important: The `@Published` attribute is class constrained. Use it with properties
/// of classes, not with non-class types like structures.
///
/// ### See Also
///
/// - `Publisher.assign(to:)`
@available(swift, introduced: 5.1)
@propertyWrapper
public struct Published<Value> {
@inlinable // trivially forwarding
public init(initialValue: Value) {
self.init(wrappedValue: initialValue)
}
/// Initialize the storage of the `Published` property as well as the corresponding
/// `Publisher`.
public init(wrappedValue: Value) {
value = wrappedValue
}
/// A publisher for properties marked with the `@Published` attribute.
public struct Publisher: OpenCombine.Publisher {
@@ -36,38 +90,100 @@ public struct Published<Value> {
public typealias Failure = Never
fileprivate let subject: PublishedSubject<Value>
public func receive<Downstream: Subscriber>(subscriber: Downstream)
where Downstream.Input == Value, Downstream.Failure == Never
{
subject.subscribe(subscriber)
}
fileprivate let subject: OpenCombine.CurrentValueSubject<Value, Never>
fileprivate init(_ output: Output) {
subject = .init(output)
}
}
private var value: Value
private enum Storage {
case value(Value)
case publisher(Publisher)
}
@propertyWrapper
private final class Box {
var wrappedValue: Storage
private var publisher: Publisher?
internal var objectWillChange: ObservableObjectPublisher?
/// The property that can be accessed with the `$` syntax and allows access to
/// the `Publisher`
public var projectedValue: Publisher {
mutating get {
if let publisher = publisher {
return publisher
}
let publisher = Publisher(value)
self.publisher = publisher
return publisher
init(wrappedValue: Storage) {
self.wrappedValue = wrappedValue
}
}
@Box private var storage: Storage
internal var objectWillChange: ObservableObjectPublisher? {
get {
switch storage {
case .value:
return nil
case .publisher(let publisher):
return publisher.subject.objectWillChange
}
}
nonmutating set {
getPublisher().subject.objectWillChange = newValue
}
}
/// Creates the published instance with an initial wrapped value.
///
/// Don't use this initializer directly. Instead, create a property with
/// the `@Published` attribute, as shown here:
///
/// @Published var lastUpdated: Date = Date()
///
/// - Parameter wrappedValue: The publisher's initial value.
public init(initialValue: Value) {
self.init(wrappedValue: initialValue)
}
/// Creates the published instance with an initial value.
///
/// Don't use this initializer directly. Instead, create a property with
/// the `@Published` attribute, as shown here:
///
/// @Published var lastUpdated: Date = Date()
///
/// - Parameter initialValue: The publisher's initial value.
public init(wrappedValue: Value) {
_storage = Box(wrappedValue: .value(wrappedValue))
}
/// The property for which this instance exposes a publisher.
///
/// The `projectedValue` is the property accessed with the `$` operator.
public var projectedValue: Publisher {
mutating get {
return getPublisher()
}
set { // swiftlint:disable:this unused_setter_value
switch storage {
case .value(let value):
storage = .publisher(Publisher(value))
case .publisher:
break
}
}
}
/// Note: This method can mutate `storage`
internal func getPublisher() -> Publisher {
switch storage {
case .value(let value):
let publisher = Publisher(value)
storage = .publisher(publisher)
return publisher
case .publisher(let publisher):
return publisher
}
}
// swiftlint:disable let_var_whitespace
@available(*, unavailable, message: """
@Published is only available on properties of classes
@@ -84,12 +200,20 @@ public struct Published<Value> {
storage storageKeyPath: ReferenceWritableKeyPath<EnclosingSelf, Published<Value>>
) -> Value {
get {
return object[keyPath: storageKeyPath].value
switch object[keyPath: storageKeyPath].storage {
case .value(let value):
return value
case .publisher(let publisher):
return publisher.subject.value
}
}
set {
object[keyPath: storageKeyPath].objectWillChange?.send()
object[keyPath: storageKeyPath].publisher?.subject.send(newValue)
object[keyPath: storageKeyPath].value = newValue
switch object[keyPath: storageKeyPath].storage {
case .value:
object[keyPath: storageKeyPath].storage = .publisher(Publisher(newValue))
case .publisher(let publisher):
publisher.subject.value = newValue
}
}
// TODO: Benchmark and explore a possibility to use _modify
}
Sources/OpenCombine/Publisher+Subscribe.swift
+53
View File
@@ -0,0 +1,53 @@
//
// Publisher+Subscribe.swift
//
//
// Created by Sergej Jaskiewicz on 23.04.2023.
//
extension Publisher {
/// Attaches the specified subscriber to this publisher.
///
/// Always call this function instead of `receive(subscriber:)`.
/// Adopters of `Publisher` must implement `receive(subscriber:)`.
/// The implementation of `subscribe(_:)` in this extension calls through to
/// `receive(subscriber:)`.
/// - SeeAlso: `receive(subscriber:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`. After attaching,
/// the subscriber can start to receive values.
public func subscribe<Subscriber: OpenCombine.Subscriber>(_ subscriber: Subscriber)
where Failure == Subscriber.Failure, Output == Subscriber.Input
{
if let hook = DebugHook.getGlobalHook() {
if var marker = subscriber as? SubscriberTapMarker {
let anySubscriber = marker.inner
as! AnySubscriber<Subscriber.Input, Subscriber.Failure>
hook.willReceive(publisher: self, subscriber: anySubscriber)
receive(subscriber: subscriber)
hook.didReceive(publisher: self, subscriber: anySubscriber)
} else {
let tap = SubscriberTap(subscriber: subscriber)
hook.willReceive(publisher: self, subscriber: subscriber)
receive(subscriber: tap)
hook.didReceive(publisher: self, subscriber: subscriber)
}
} else {
receive(subscriber: subscriber)
}
}
/// Attaches the specified subject to this publisher.
///
/// - Parameter subject: The subject to attach to this publisher.
public func subscribe<Subject: OpenCombine.Subject>(
_ subject: Subject
) -> AnyCancellable
where Failure == Subject.Failure, Output == Subject.Output
{
let subscriber = SubjectSubscriber(subject)
self.subscribe(subscriber)
return AnyCancellable(subscriber)
}
}
Sources/OpenCombine/Publisher.swift
-70
View File
@@ -1,70 +0,0 @@
//
// Publisher.swift
// OpenCombine
//
// Created by Sergej Jaskiewicz on 10.06.2019.
//
/// Declares that a type can transmit a sequence of values over time.
///
/// There are four kinds of messages:
/// subscription - A connection between `Publisher` and `Subscriber`.
/// value - An element in the sequence.
/// error - The sequence ended with an error (`.failure(e)`).
/// complete - The sequence ended successfully (`.finished`).
///
/// Both `.failure` and `.finished` are terminal messages.
///
/// You can summarize these possibilities with a regular expression:
/// value*(error|finished)?
///
/// Every `Publisher` must adhere to this contract.
public protocol Publisher {
/// The kind of values published by this publisher.
associatedtype Output
/// The kind of errors this publisher might publish.
///
/// Use `Never` if this `Publisher` does not publish errors.
associatedtype Failure: Error
/// This function is called to attach the specified `Subscriber` to this `Publisher`
/// by `subscribe(_:)`
///
/// - SeeAlso: `subscribe(_:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`.
/// once attached it can begin to receive values.
func receive<Subscriber: OpenCombine.Subscriber>(subscriber: Subscriber)
where Failure == Subscriber.Failure, Output == Subscriber.Input
}
extension Publisher {
/// Attaches the specified subscriber to this publisher.
///
/// Always call this function instead of `receive(subscriber:)`.
/// Adopters of `Publisher` must implement `receive(subscriber:)`.
/// The implementation of `subscribe(_:)` in this extension calls through to
/// `receive(subscriber:)`.
/// - SeeAlso: `receive(subscriber:)`
/// - Parameters:
/// - subscriber: The subscriber to attach to this `Publisher`. After attaching,
/// the subscriber can start to receive values.
public func subscribe<Subscriber: OpenCombine.Subscriber>(_ subscriber: Subscriber)
where Failure == Subscriber.Failure, Output == Subscriber.Input
{
receive(subscriber: subscriber)
}
public func subscribe<Subject: OpenCombine.Subject>(
_ subject: Subject
) -> AnyCancellable
where Failure == Subject.Failure, Output == Subject.Output
{
let subscriber = SubjectSubscriber(subject)
self.subscribe(subscriber)
return AnyCancellable(subscriber)
}
}
Sources/OpenCombine/Publishers/Deferred.swift
+1 -1
View File
@@ -17,7 +17,7 @@ public struct Deferred<DeferredPublisher: Publisher>: Publisher {
/// Use `Never` if this `Publisher` does not publish errors.
public typealias Failure = DeferredPublisher.Failure
/// The closure to execute when it receives a subscription.
/// The closure to execute when this deferred publisher receives a subscription.
///
/// The publisher returned by this closure immediately
/// receives the incoming subscription.
Sources/OpenCombine/Publishers/Empty.swift
+1
View File
@@ -24,6 +24,7 @@ public struct Empty<Output, Failure: Error>: Publisher, Equatable {
///
/// Use this initializer to connect the empty publisher to subscribers or other
/// publishers that have specific output and failure types.
///
/// - Parameters:
/// - completeImmediately: A Boolean value that indicates whether the publisher
/// should immediately finish.
Sources/OpenCombine/Publishers/Fail.swift
+1
View File
@@ -20,6 +20,7 @@ public struct Fail<Output, Failure: Error>: Publisher {
///
/// Use this initializer to create a `Fail` publisher that can work with
/// subscribers or publishers that expect a given output type.
///
/// - Parameters:
/// - outputType: The output type exposed by this publisher.
/// - failure: The failure to send when terminating the publisher.
Sources/OpenCombine/Publishers/GENERATED-Publishers.Catch.swift
Generated
+76 -23
View File
@@ -15,27 +15,30 @@ extension Publisher {
/// Handles errors from an upstream publisher by replacing it with another publisher.
///
/// The following example replaces any error from the upstream publisher and replaces
/// the upstream with a `Just` publisher. This continues the stream by publishing
/// a single value and completing normally.
/// ```
/// enum SimpleError: Error { case error }
/// let errorPublisher = (0..<10).publisher.tryMap { v -> Int in
/// if v < 5 {
/// return v
/// } else {
/// throw SimpleError.error
/// }
/// }
/// Use `catch()` to replace an error from an upstream publisher with a new publisher.
///
/// In the example below, the `catch()` operator handles the `SimpleError` thrown by
/// the upstream publisher by replacing the error with a `Just` publisher. This
/// continues the stream by publishing a single value and completing normally.
///
/// struct SimpleError: Error {}
/// let numbers = [5, 4, 3, 2, 1, 0, 9, 8, 7, 6]
/// cancellable = numbers.publisher
/// .tryLast(where: {
/// guard $0 != 0 else { throw SimpleError() }
/// return true
/// })
/// .catch { error in
/// Just(-1)
/// }
/// .sink { print("\($0)") }
/// // Prints: -1
///
/// let noErrorPublisher = errorPublisher.catch { _ in
/// return Just(100)
/// }
/// ```
/// Backpressure note: This publisher passes through `request` and `cancel` to
/// the upstream. After receiving an error, the publisher sends sends any unfulfilled
/// demand to the new `Publisher`.
///
/// - SeeAlso: `replaceError`
/// - Parameter handler: A closure that accepts the upstream failure as input and
/// returns a publisher to replace the upstream publisher.
/// - Returns: A publisher that handles errors from an upstream publisher by replacing
@@ -49,13 +52,48 @@ extension Publisher {
}
/// Handles errors from an upstream publisher by either replacing it with another
/// publisher or `throw`ing a new error.
/// publisher or throwing a new error.
///
/// - Parameter handler: A `throw`ing closure that accepts the upstream failure as
/// input and returns a publisher to replace the upstream publisher or if an error
/// is thrown will send the error downstream.
/// Use `tryCatch(_:)` to decide how to handle from an upstream publisher by either
/// replacing the publisher with a new publisher, or throwing a new error.
///
/// In the example below, an array publisher emits values that a `tryMap(_:)` operator
/// evaluates to ensure the values are greater than zero. If the values arent greater
/// than zero, the operator throws an error to the downstream subscriber to let it
/// know there was a problem. The subscriber, `tryCatch(_:)`, replaces the error with
/// a new publisher using ``Just`` to publish a final value before the stream ends
/// normally.
///
/// enum SimpleError: Error { case error }
/// var numbers = [5, 4, 3, 2, 1, -1, 7, 8, 9, 10]
///
/// cancellable = numbers.publisher
/// .tryMap { v in
/// if v > 0 {
/// return v
/// } else {
/// throw SimpleError.error
/// }
/// }
/// .tryCatch { error in
/// Just(0) // Send a final value before completing normally.
/// // Alternatively, throw a new error to terminate the stream.
/// }
/// .sink(receiveCompletion: { print ("Completion: \($0).") },
/// receiveValue: { print ("Received \($0).") })
/// // Received 5.
/// // Received 4.
/// // Received 3.
/// // Received 2.
/// // Received 1.
/// // Received 0.
/// // Completion: finished.
///
/// - Parameter handler: A throwing closure that accepts the upstream failure as
/// input. This closure can either replace the upstream publisher with a new one,
/// or throw a new error to the downstream subscriber.
/// - Returns: A publisher that handles errors from an upstream publisher by replacing
/// the failed publisher with another publisher.
/// the failed publisher with another publisher, or an error.
public func tryCatch<NewPublisher: Publisher>(
_ handler: @escaping (Failure) throws -> NewPublisher
) -> Publishers.TryCatch<Self, NewPublisher>
@@ -105,8 +143,12 @@ extension Publishers {
}
}
/// A publisher that handles errors from an upstream publisher by replacing the failed
/// publisher with another publisher or optionally producing a new error.
/// A publisher that handles errors from an upstream publisher by replacing
/// the failed publisher with another publisher or producing a new error.
///
/// Because this publishers handler can throw an error, `Publishers.TryCatch` defines
/// its `Failure` type as `Error`. This is different from `Publishers.Catch`, which
/// gets its failure type from the replacement publisher.
public struct TryCatch<Upstream: Publisher, NewPublisher: Publisher>: Publisher
where Upstream.Output == NewPublisher.Output
{
@@ -114,10 +156,21 @@ extension Publishers {
public typealias Failure = Error
/// The publisher that this publisher receives elements from.
public let upstream: Upstream
/// A closure that accepts the upstream failure as input and either returns
/// a publisher to replace the upstream publisher or throws an error.
public let handler: (Upstream.Failure) throws -> NewPublisher
/// Creates a publisher that handles errors from an upstream publisher by
/// replacing the failed publisher with another publisher or by throwing an error.
///
/// - Parameters:
/// - upstream: The publisher that this publisher receives elements from.
/// - handler: A closure that accepts the upstream failure as input and either
/// returns a publisher to replace the upstream publisher. If this closure
/// throws an error, the publisher terminates with the thrown error.
public init(upstream: Upstream,
handler: @escaping (Upstream.Failure) throws -> NewPublisher) {
self.upstream = upstream
Sources/OpenCombine/Publishers/GENERATED-Publishers.Encode.swift
Generated
+156 -22
View File
@@ -13,16 +13,100 @@
extension Publisher {
/// Encodes the output from upstream using a specified `TopLevelEncoder`.
/// For example, use `JSONEncoder`.
/// Encodes the output from upstream using a specified encoder.
///
/// Use `encode(encoder:)` with a `JSONDecoder` (or a `PropertyListDecoder` for
/// property lists) to encode an `Encodable` struct into `Data` that could be used to
/// make a JSON string (or written to disk as a binary plist in the case of property
/// lists).
///
/// In this example, a `PassthroughSubject` publishes an `Article`.
/// The `encode(encoder:)` operator encodes the properties of the `Article` struct
/// into a new JSON string according to the `Codable` protocol adopted by `Article`.
/// The operator publishes the resulting JSON string to the downstream subscriber.
/// If the encoding operation fails, which can happen in the case of complex
/// properties that cant be directly transformed into JSON, the stream terminates
/// and the error is passed to the downstream subscriber.
///
/// struct Article: Codable {
/// let title: String
/// let author: String
/// let pubDate: Date
/// }
///
/// let dataProvider = PassthroughSubject<Article, Never>()
/// let cancellable = dataProvider
/// .encode(encoder: JSONEncoder())
/// .sink(receiveCompletion: { print ("Completion: \($0)") },
/// receiveValue: { data in
/// guard let stringRepresentation =
/// String(data: data, encoding: .utf8) else { return }
/// print("""
/// Data received \(data) string representation: \
/// \(stringRepresentation)
/// """)
/// })
///
/// dataProvider.send(Article(title: "My First Article",
/// author: "Gita Kumar",
/// pubDate: Date()))
///
/// // Prints: "Data received 86 bytes string representation:
/// // {"title":"My First Article","author":"Gita Kumar"
/// // "pubDate":606211803.279603}"
///
/// - Parameter encoder: An encoder that implements the `TopLevelEncoder` protocol.
/// - Returns: A publisher that encodes received elements using a specified encoder,
/// and publishes the resulting data.
public func encode<Coder: TopLevelEncoder>(
encoder: Coder
) -> Publishers.Encode<Self, Coder> {
return .init(upstream: self, encoder: encoder)
}
/// Decodes the output from upstream using a specified `TopLevelDecoder`.
/// For example, use `JSONDecoder`.
/// Decodes the output from the upstream using a specified decoder.
///
/// Use `decode(type:decoder:)` with a `JSONDecoder` (or a `PropertyListDecoder` for
/// property lists) to decode data received from a `URLSession.DataTaskPublisher` or
/// other data source using the `Decodable` protocol.
///
/// In this example, a `PassthroughSubject` publishes a JSON string. The JSON decoder
/// parses the string, converting its fields according to the `Decodable` protocol
/// implemented by `Article`, and successfully populating a new `Article`.
/// The `Publishers.Decode` publisher then publishes the `Article` to the downstream.
/// If a decoding operation fails, which happens in the case of missing or malformed
/// data in the source JSON string, the stream terminates and passes the error to
/// the downstream subscriber.
///
/// struct Article: Codable {
/// let title: String
/// let author: String
/// let pubDate: Date
/// }
///
/// let dataProvider = PassthroughSubject<Data, Never>()
/// cancellable = dataProvider
/// .decode(type: Article.self, decoder: JSONDecoder())
/// .sink(receiveCompletion: { print ("Completion: \($0)")},
/// receiveValue: { print ("value: \($0)") })
///
/// dataProvider.send(Data("""
/// {\"pubDate\":1574273638.575666, \
/// \"title\" : \"My First Article\", \
/// \"author\" : \"Gita Kumar\" }
/// """.utf8))
///
/// // Prints:
/// // ".sink() data received Article(title: "My First Article",
/// // author: "Gita Kumar",
/// // pubDate: 2050-11-20 18:13:58 +0000)"
///
/// - Parameters:
/// - type: The encoded data to decode into a struct that conforms to
/// the `Decodable` protocol.
/// - decoder: A decoder that implements the `TopLevelDecoder` protocol.
/// - Returns: A publisher that decodes a given type using a specified decoder and
/// publishes the result.
public func decode<Item: Decodable, Coder: TopLevelDecoder>(
type: Item.Type,
decoder: Coder
@@ -88,9 +172,6 @@ extension Publishers.Encode {
CustomPlaygroundDisplayConvertible
where Downstream.Input == Output, Downstream.Failure == Error
{
// NOTE: This class has been audited for thread safety.
// Combine doesn't use any locking here.
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
@@ -99,6 +180,8 @@ extension Publishers.Encode {
private let encode: (Upstream.Output) throws -> Output
private let lock = UnfairLock.allocate()
private var finished = false
private var subscription: Subscription?
@@ -111,44 +194,70 @@ extension Publishers.Encode {
self.encode = encode
}
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
if finished || self.subscription != nil {
lock.unlock()
subscription.cancel()
return
}
self.subscription = subscription
lock.unlock()
downstream.receive(subscription: self)
}
func receive(_ input: Input) -> Subscribers.Demand {
if finished { return .none }
lock.lock()
if finished {
lock.unlock()
return .none
}
lock.unlock()
do {
return try downstream.receive(encode(input))
} catch {
lock.lock()
finished = true
let subscription = self.subscription.take()
lock.unlock()
subscription?.cancel()
subscription = nil
downstream.receive(completion: .failure(error))
return .none
}
}
func receive(completion: Subscribers.Completion<Failure>) {
if finished { return }
lock.lock()
if finished {
lock.unlock()
return
}
finished = true
subscription = nil
lock.unlock()
downstream.receive(completion: completion.eraseError())
}
func request(_ demand: Subscribers.Demand) {
lock.lock()
let subscription = self.subscription
lock.unlock()
subscription?.request(demand)
}
func cancel() {
guard let subscription = self.subscription, !finished else { return }
subscription.cancel()
self.subscription = nil
lock.lock()
guard !finished, let subscription = self.subscription.take() else {
lock.unlock()
return
}
finished = true
lock.unlock()
subscription.cancel()
}
var description: String { return "Encode" }
@@ -175,9 +284,6 @@ extension Publishers.Decode {
CustomPlaygroundDisplayConvertible
where Downstream.Input == Output, Downstream.Failure == Error
{
// NOTE: This class has been audited for thread safety.
// Combine doesn't use any locking here.
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
@@ -186,6 +292,8 @@ extension Publishers.Decode {
private let decode: (Upstream.Output) throws -> Output
private let lock = UnfairLock.allocate()
private var finished = false
private var subscription: Subscription?
@@ -198,44 +306,70 @@ extension Publishers.Decode {
self.decode = decode
}
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
if finished || self.subscription != nil {
lock.unlock()
subscription.cancel()
return
}
self.subscription = subscription
lock.unlock()
downstream.receive(subscription: self)
}
func receive(_ input: Input) -> Subscribers.Demand {
if finished { return .none }
lock.lock()
if finished {
lock.unlock()
return .none
}
lock.unlock()
do {
return try downstream.receive(decode(input))
} catch {
lock.lock()
finished = true
let subscription = self.subscription.take()
lock.unlock()
subscription?.cancel()
subscription = nil
downstream.receive(completion: .failure(error))
return .none
}
}
func receive(completion: Subscribers.Completion<Failure>) {
if finished { return }
lock.lock()
if finished {
lock.unlock()
return
}
finished = true
subscription = nil
lock.unlock()
downstream.receive(completion: completion.eraseError())
}
func request(_ demand: Subscribers.Demand) {
lock.lock()
let subscription = self.subscription
lock.unlock()
subscription?.request(demand)
}
func cancel() {
guard let subscription = self.subscription, !finished else { return }
subscription.cancel()
self.subscription = nil
lock.lock()
guard !finished, let subscription = self.subscription.take() else {
lock.unlock()
return
}
finished = true
lock.unlock()
subscription.cancel()
}
var description: String { return "Decode" }
Sources/OpenCombine/Publishers/GENERATED-Publishers.MapKeyPath.swift
Generated
+80 -12
View File
@@ -11,12 +11,32 @@
// Created by Sergej Jaskiewicz on 03/10/2019.
//
extension Publisher {
// swiftlint:disable large_tuple
/// Returns a publisher that publishes the values of a keyt path as a tuple.
extension Publisher {
/// Publishes the value of the key path.
///
/// In the following example, the `map(_:)` operator uses the Swift
/// key path syntax to access the `die` member
/// of the `DiceRoll` structure published by the `Just` publisher.
///
/// The downstream sink subscriber receives only
/// the value of this `Int`,
/// not the entire `DiceRoll`.
///
/// struct DiceRoll {
/// let die: Int
/// }
///
/// cancellable = Just(DiceRoll(die: Int.random(in: 1...6)))
/// .map(\.die)
/// .sink {
/// print ("Rolled: \($0)")
/// }
/// // Prints "Rolled: 4 (or some other random value).
///
/// - Parameters:
/// - keyPath: The key path of a property on `Output`
/// - keyPath: The key path of a property on `Output`.
/// - Returns: A publisher that publishes the value of the key path.
public func map<Result>(
_ keyPath: KeyPath<Output, Result>
@@ -26,12 +46,35 @@ extension Publisher {
keyPath: keyPath
)
}
/// Returns a publisher that publishes the values of two key paths as a tuple.
/// Publishes the values of two key paths as a tuple.
///
/// In the following example, the `map(_:_:)` operator uses the Swift
/// key path syntax to access the `die1` and `die2` members
/// of the `DiceRoll` structure published by the `Just` publisher.
///
/// The downstream sink subscriber receives only
/// these two values (as an `(Int, Int)` tuple),
/// not the entire `DiceRoll`.
///
/// struct DiceRoll {
/// let die1: Int
/// let die2: Int
/// }
///
/// cancellable = Just(DiceRoll(die1: Int.random(in: 1...6),
/// die2: Int.random(in: 1...6)))
/// .map(\.die1, \.die2)
/// .sink { values in
/// print("""
/// Rolled: \(values.0), \(values.1) \
/// (total \(values.0 + values.1))
/// """)
/// }
/// // Prints "Rolled: 4, 1 (total: 5)" (or other random values).
///
/// - Parameters:
/// - keyPath0: The key path of a property on `Output`
/// - keyPath1: The key path of another property on `Output`
/// - keyPath0: The key path of a property on `Output`.
/// - keyPath1: The key path of another property on `Output`.
/// - Returns: A publisher that publishes the values of two key paths as a tuple.
public func map<Result0, Result1>(
_ keyPath0: KeyPath<Output, Result0>,
@@ -43,13 +86,38 @@ extension Publisher {
keyPath1: keyPath1
)
}
/// Returns a publisher that publishes the values of three key paths as a tuple.
/// Publishes the values of three key paths as a tuple.
///
/// In the following example, the `map(_:_:_:)` operator uses the Swift
/// key path syntax to access the `die1`, `die2`, and `die3` members
/// of the `DiceRoll` structure published by the `Just` publisher.
///
/// The downstream sink subscriber receives only
/// these three values (as an `(Int, Int, Int)` tuple),
/// not the entire `DiceRoll`.
///
/// struct DiceRoll {
/// let die1: Int
/// let die2: Int
/// let die3: Int
/// }
///
/// cancellable = Just(DiceRoll(die1: Int.random(in: 1...6),
/// die2: Int.random(in: 1...6),
/// die3: Int.random(in: 1...6)))
/// .map(\.die1, \.die2, \.die3)
/// .sink { values in
/// print("""
/// Rolled: \(values.0), \(values.1), \(values.2) \
/// (total \(values.0 + values.1 + values.2))
/// """)
/// }
/// // Prints "Rolled: 3, 5, 4 (total: 12)" (or other random values).
///
/// - Parameters:
/// - keyPath0: The key path of a property on `Output`
/// - keyPath1: The key path of another property on `Output`
/// - keyPath2: The key path of a third property on `Output`
/// - keyPath0: The key path of a property on `Output`.
/// - keyPath1: The key path of a second property on `Output`.
/// - keyPath2: The key path of a third property on `Output`.
/// - Returns: A publisher that publishes the values of three key paths as a tuple.
public func map<Result0, Result1, Result2>(
_ keyPath0: KeyPath<Output, Result0>,
Sources/OpenCombine/Publishers/Just.swift
+5 -5
View File
@@ -7,10 +7,11 @@
/// A publisher that emits an output to each subscriber just once, and then finishes.
///
/// You can use a `Just` publisher to start a chain of publishers. A `Just` publisher
/// is also useful when replacing a value with `Catch`.
/// You can use a `Just` publisher to start a chain of publishers. A `Just` publisher is
/// also useful when replacing a value with `Publishers.Catch`.
///
/// In contrast with `Publishers.Once`, a `Just` publisher cannot fail with an error.
/// In contrast with `Result.Publisher`, a `Just` publisher cant fail with an error.
/// And unlike `Optional.Publisher`, a `Just` publisher always produces a value.
public struct Just<Output>: Publisher {
public typealias Failure = Never
@@ -292,8 +293,7 @@ extension Just {
func request(_ demand: Subscribers.Demand) {
demand.assertNonZero()
guard let downstream = self.downstream else { return }
self.downstream = nil
guard let downstream = self.downstream.take() else { return }
_ = downstream.receive(value)
downstream.receive(completion: .finished)
}
Sources/OpenCombine/Publishers/Optional.Publisher.swift
+40 -14
View File
@@ -28,28 +28,45 @@ extension Optional {
self.optional = optional
}
/// A publisher that publishes an optional value to each subscriber
/// exactly once, if the optional has a value.
public var publisher: Publisher {
return Publisher(optional)
}
/// The type of a Combine publisher that publishes the value of a Swift optional
/// instance to each subscriber exactly once, if the instance has any value at
/// all.
///
/// In contrast with `Just`, an `Optional` publisher may send
/// no value before completion.
/// In contrast with the `Just` publisher, which always produces a single value,
/// this publisher might not send any values and instead finish normally,
/// if `output` is `nil`.
public struct Publisher: OpenCombine.Publisher {
/// The kind of value published by this publisher.
///
/// This publisher produces the type wrapped by the optional.
public typealias Output = Wrapped
/// The kind of error this publisher might publish.
///
/// The optional publisher never produces errors.
public typealias Failure = Never
/// The result to deliver to each subscriber.
/// The output to deliver to each subscriber.
public let output: Wrapped?
/// Creates a publisher to emit the optional value of a successful result,
/// or fail with an error.
/// Creates a publisher to emit the value of the optional, or to finish
/// immediately if the optional doesn't have a value.
///
/// - Parameter result: The result to deliver to each subscriber.
/// - Parameter output: The result to deliver to each subscriber.
public init(_ output: Output?) {
self.output = output
}
/// Implements the Publisher protocol by accepting the subscriber and
/// immediately publishing the optionals value if it has one, or finishing
/// normally if it doesnt.
///
/// - Parameter subscriber: The subscriber to add.
public func receive<Downstream: Subscriber>(subscriber: Downstream)
where Output == Downstream.Input, Failure == Downstream.Failure
{
@@ -64,13 +81,23 @@ extension Optional {
}
}
public var ocombine: OCombine {
return .init(self)
}
#if !canImport(Combine)
/// A publisher that publishes an optional value to each subscriber
/// exactly once, if the optional has a value.
/// The type of a Combine publisher that publishes the value of a Swift optional
/// instance to each subscriber exactly once, if the instance has any value at
/// all.
///
/// In contrast with `Just`, an `Optional` publisher may send
/// no value before completion.
/// In contrast with the `Just` publisher, which always produces a single value,
/// this publisher might not send any values and instead finish normally,
/// if `output` is `nil`.
public typealias Publisher = OCombine.Publisher
public var publisher: Publisher {
return Publisher(self)
}
#endif
}
@@ -95,8 +122,7 @@ extension Optional.OCombine {
func request(_ demand: Subscribers.Demand) {
demand.assertNonZero()
guard let downstream = self.downstream else { return }
self.downstream = nil
guard let downstream = self.downstream.take() else { return }
_ = downstream.receive(output)
downstream.receive(completion: .finished)
}
Sources/OpenCombine/Publishers/Publishers.AllSatisfy.swift
+60 -21
View File
@@ -10,13 +10,28 @@ extension Publisher {
/// Publishes a single Boolean value that indicates whether all received elements pass
/// a given predicate.
///
/// When this publisher receives an element, it runs the predicate against
/// the element. If the predicate returns `false`, the publisher produces a `false`
/// value and finishes. If the upstream publisher finishes normally, this publisher
/// produces a `true` value and finishes.
/// As a `reduce`-style operator, this publisher produces at most one value.
/// Backpressure note: Upon receiving any request greater than zero, this publisher
/// requests unlimited elements from the upstream publisher.
/// Use the `allSatisfy(_:)` operator to determine if all elements in a stream satisfy
/// a criteria you provide. When this publisher receives an element, it runs
/// the predicate against the element. If the predicate returns `false`, the publisher
/// produces a `false` value and finishes. If the upstream publisher finishes
/// normally, this publisher produces a `true` value and finishes.
///
/// In the example below, the `allSatisfy(_:)` operator tests if each an integer array
/// publishers elements fall into the `targetRange`:
///
/// let targetRange = (-1...100)
/// let numbers = [-1, 0, 10, 5]
/// numbers.publisher
/// .allSatisfy { targetRange.contains($0) }
/// .sink { print("\($0)") }
///
/// // Prints: "true"
///
/// With operators similar to `reduce(_:_:)`, this publisher produces at most one
/// value.
///
/// > Note: Upon receiving any request greater than zero, this publisher requests
/// unlimited elements from the upstream publisher.
///
/// - Parameter predicate: A closure that evaluates each received element.
/// Return `true` to continue, or `false` to cancel the upstream and complete.
@@ -31,21 +46,45 @@ extension Publisher {
/// Publishes a single Boolean value that indicates whether all received elements pass
/// a given error-throwing predicate.
///
/// When this publisher receives an element, it runs the predicate against
/// the element. If the predicate returns `false`, the publisher produces a `false`
/// value and finishes. If the upstream publisher finishes normally, this publisher
/// produces a `true` value and finishes. If the predicate throws an error,
/// the publisher fails, passing the error to its downstream.
/// As a `reduce`-style operator, this publisher produces at most one value.
/// Backpressure note: Upon receiving any request greater than zero, this publisher
/// requests unlimited elements from the upstream publisher.
/// Use the `tryAllSatisfy(_:)` operator to determine if all elements in a stream
/// satisfy a criteria in an error-throwing predicate you provide. When this publisher
/// receives an element, it runs the predicate against the element. If the predicate
/// returns `false`, the publisher produces a `false` value and finishes.
/// If the upstream publisher finishes normally, this publisher produces a `true`
/// value and finishes. If the predicate throws an error, the publisher fails and
/// passes the error to its downstream subscriber.
///
/// - Parameter predicate: A closure that evaluates each received element.
/// Return `true` to continue, or `false` to cancel the upstream and complete.
/// The closure may throw, in which case the publisher cancels the upstream
/// publisher and fails with the thrown error.
/// - Returns: A publisher that publishes a Boolean value that indicates whether
/// all received elements pass a given predicate.
/// In the example below, an error-throwing predicate tests if each of an integer
/// array publishers elements fall into the `targetRange`; the predicate throws
/// an error if an element is zero and terminates the stream.
///
/// let targetRange = (-1...100)
/// let numbers = [-1, 10, 5, 0]
///
/// numbers.publisher
/// .tryAllSatisfy { anInt in
/// guard anInt != 0 else { throw RangeError() }
/// return targetRange.contains(anInt)
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints: "completion: failure(RangeError())"
///
/// With operators similar to `reduce(_:_:)`, this publisher produces at most one
/// value.
///
/// > Note: Upon receiving any request greater than zero, this publisher requests
/// unlimited elements from the upstream publisher.
///
/// - Parameter predicate: A closure that evaluates each received element. Return
/// `true` to continue, or `false` to cancel the upstream and complete. The closure
/// may throw an error, in which case the publisher cancels the upstream publisher
/// and fails with the thrown error.
/// - Returns: A publisher that publishes a Boolean value that indicates whether all
/// received elements pass a given predicate.
public func tryAllSatisfy(
_ predicate: @escaping (Output) throws -> Bool
) -> Publishers.TryAllSatisfy<Self> {
Sources/OpenCombine/Publishers/Publishers.AssertNoFailure.swift
+30 -4
View File
@@ -10,8 +10,34 @@ extension Publisher {
/// Raises a fatal error when its upstream publisher fails, and otherwise republishes
/// all received input.
///
/// Use this function for internal sanity checks that are active during testing but
/// do not impact performance of shipping code.
/// Use `assertNoFailure()` for internal integrity checks that are active during
/// testing. However, it is important to note that, like its Swift counterpart
/// `fatalError(_:)`, the `assertNoFailure()` operator asserts a fatal exception when
/// triggered during development and testing, _and_ in shipping versions of code.
///
/// In the example below, a `CurrentValueSubject` publishes the initial and second
/// values successfully. The third value, containing a `genericSubjectError`, causes
/// the `assertNoFailure()` operator to assert a fatal exception stopping the process:
///
/// public enum SubjectError: Error {
/// case genericSubjectError
/// }
///
/// let subject = CurrentValueSubject<String, Error>("initial value")
/// subject
/// .assertNoFailure()
/// .sink(receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0).") }
/// )
///
/// subject.send("second value")
/// subject.send(completion: .failure(SubjectError.genericSubjectError))
///
/// // Prints:
/// // value: initial value.
/// // value: second value.
/// // The process then terminates in the debugger as the assertNoFailure
/// // operator catches the genericSubjectError.
///
/// - Parameters:
/// - prefix: A string used at the beginning of the fatal error message.
@@ -31,8 +57,8 @@ extension Publishers {
/// A publisher that raises a fatal error upon receiving any failure, and otherwise
/// republishes all received input.
///
/// Use this function for internal sanity checks that are active during testing but
/// do not impact performance of shipping code.
/// Use this function for internal integrity checks that are active during testing but
/// don't affect performance of shipping code.
public struct AssertNoFailure<Upstream: Publisher>: Publisher {
public typealias Output = Upstream.Output
Sources/OpenCombine/Publishers/Publishers.Autoconnect.swift
+15 -9
View File
@@ -11,13 +11,19 @@ extension ConnectablePublisher {
/// publisher.
///
/// Use `autoconnect()` to simplify working with `ConnectablePublisher` instances,
/// such as those created with `makeConnectable()`.
/// such as `TimerPublisher` in `OpenCombineFoundation`.
///
/// let autoconnectedPublisher = somePublisher
/// .makeConnectable()
/// In the following example, the `Timer.publish()` operator creates
/// a `TimerPublisher`, which is a `ConnectablePublisher`. As a result, subscribers
/// dont receive any values until after a call to `connect()`.
/// For convenience when working with a single subscriber, the `.autoconnect()`
/// operator performs the `connect()` call when attached to by the subscriber.
///
/// cancellable = Timer.publish(every: 1, on: .main, in: .default)
/// .autoconnect()
/// .subscribe(someSubscriber)
///
/// .sink { date in
/// print ("Date now: \(date)")
/// }
/// - Returns: A publisher which automatically connects to its upstream connectable
/// publisher.
public func autoconnect() -> Publishers.Autoconnect<Self> {
@@ -27,12 +33,12 @@ extension ConnectablePublisher {
extension Publishers {
/// A publisher that automatically connects and disconnects from this connectable
/// publisher.
/// A publisher that automatically connects to an upstream connectable publisher.
///
/// This publisher calls `connect()` on the upstream `ConnectablePublisher` when first
/// attached to by a subscriber.
public class Autoconnect<Upstream: ConnectablePublisher>: Publisher {
// NOTE: This class has been audited for thread safety
public typealias Output = Upstream.Output
public typealias Failure = Upstream.Failure
Sources/OpenCombine/Publishers/Publishers.Breakpoint.swift
+59 -11
View File
@@ -5,6 +5,8 @@
// Created by Sergej Jaskiewicz on 03.12.2019.
//
#if !WASI
#if canImport(COpenCombineHelpers)
import COpenCombineHelpers
#endif
@@ -14,9 +16,29 @@ extension Publisher {
/// Raises a debugger signal when a provided closure needs to stop the process in
/// the debugger.
///
/// When any of the provided closures returns `true`, this publisher raises
/// the `SIGTRAP` signal to stop the process in the debugger.
/// Otherwise, this publisher passes through values and completions as-is.
/// Use `breakpoint(receiveSubscription:receiveOutput:receiveCompletion:)` to examine
/// one or more stages of the subscribe/publish/completion process and stop in
/// the debugger, based on conditions you specify. When any of the provided closures
/// returns `true`, this operator raises the `SIGTRAP` signal to stop the process
/// in the debugger. Otherwise, this publisher passes through values and completions
/// as-is.
///
/// In the example below, a `PassthroughSubject` publishes strings to a breakpoint
/// republisher. When the breakpoint receives the string `DEBUGGER`, it returns
/// `true`, which stops the app in the debugger.
///
/// let publisher = PassthroughSubject<String?, Never>()
/// cancellable = publisher
/// .breakpoint(
/// receiveOutput: { value in return value == "DEBUGGER" }
/// )
/// .sink { print("\(String(describing: $0))" , terminator: " ") }
///
/// publisher.send("DEBUGGER")
///
/// // Prints: "error: Execution was interrupted, reason: signal SIGTRAP."
/// // Depending on your specific environment, the console messages may
/// // also include stack trace information, which is not shown here.
///
/// - Parameters:
/// - receiveSubscription: A closure that executes when when the publisher receives
@@ -44,19 +66,46 @@ extension Publisher {
/// Raises a debugger signal upon receiving a failure.
///
/// When the upstream publisher fails with an error, this publisher raises
/// the `SIGTRAP` signal, which stops the process in the debugger.
/// Otherwise, this publisher passes through values and completions as-is.
/// the `SIGTRAP` signal, which stops the process in the debugger. Otherwise, this
/// publisher passes through values and completions as-is.
///
/// In this example a `PassthroughSubject` publishes strings, but its downstream
/// `Publisher/tryMap(_:)` operator throws an error. This sends the error downstream
/// as a `Subscribers.Completion.failure(_:)`. The `breakpointOnError()`
/// operator receives this completion and stops the app in the debugger.
///
/// struct CustomError : Error {}
/// let publisher = PassthroughSubject<String?, Error>()
/// cancellable = publisher
/// .tryMap { stringValue in
/// throw CustomError()
/// }
/// .breakpointOnError()
/// .sink(
/// receiveCompletion: { completion in
/// print("Completion: \(String(describing: completion))")
/// },
/// receiveValue: { aValue in
/// print("Result: \(String(describing: aValue))")
/// }
/// )
///
/// publisher.send("TEST DATA")
///
/// // Prints: "error: Execution was interrupted, reason: signal SIGTRAP."
/// // Depending on your specific environment, the console messages may
/// // also include stack trace information, which is not shown here.
///
/// - Returns: A publisher that raises a debugger signal upon receiving a failure.
public func breakpointOnError() -> Publishers.Breakpoint<Self> {
return breakpoint { completion in
return breakpoint(receiveCompletion: { completion in
switch completion {
case .finished:
return false
case .failure:
return true
}
}
})
}
}
@@ -172,12 +221,11 @@ extension Publishers.Breakpoint {
var description: String { return "Breakpoint" }
var customMirror: Mirror {
let children = CollectionOfOne<Mirror.Child>(
("upstream", breakpoint.upstream)
)
return Mirror(self, children: children)
return Mirror(self, children: EmptyCollection())
}
var playgroundDescription: Any { return description }
}
}
#endif // !WASI
Sources/OpenCombine/Publishers/Publishers.Buffer.swift
+65 -45
View File
@@ -8,9 +8,20 @@
extension Publisher {
/// Buffers elements received from an upstream publisher.
/// - Parameter size: The maximum number of elements to store.
/// - Parameter prefetch: The strategy for initially populating the buffer.
/// - Parameter whenFull: The action to take when the buffer becomes full.
///
/// Use `buffer(size:prefetch:whenFull:)` to collect a specific number of elements
/// from an upstream publisher before republishing them to the downstream subscriber
/// according to the `Publishers.BufferingStrategy` and `Publishers.PrefetchStrategy`
/// strategy you specify.
///
/// If the publisher completes before reaching the `size` threshold, it buffers
/// the elements and publishes them downstream prior to completion.
///
/// - Parameters:
/// - size: The maximum number of elements to store.
/// - prefetch: The strategy to initially populate the buffer.
/// - whenFull: The action to take when the buffer becomes full.
/// - Returns: A publisher that buffers elements received from an upstream publisher.
public func buffer(
size: Int,
prefetch: Publishers.PrefetchStrategy,
@@ -26,37 +37,33 @@ extension Publisher {
extension Publishers {
/// A strategy for filling a buffer.
///
/// * keepFull: A strategy to fill the buffer at subscription time, and keep it full
/// thereafter.
/// * byRequest: A strategy that avoids prefetching and instead performs requests
/// on demand.
public enum PrefetchStrategy {
/// A strategy to fill the buffer at subscription time, and keep it full
/// thereafter.
///
/// This strategy starts by making a demand equal to the buffers size from
/// the upstream when the subscriber first connects. Afterwards, it continues
/// to demand elements from the upstream to try to keep the buffer full.
case keepFull
/// A strategy that avoids prefetching and instead performs requests
/// on demand.
/// A strategy that avoids prefetching and instead performs requests on demand.
///
/// This strategy just forwards the downstreams requests to the upstream
/// publisher.
case byRequest
}
/// A strategy for handling exhaustion of a buffers capacity.
///
/// * dropNewest: When full, discard the newly-received element without buffering it.
/// * dropOldest: When full, remove the least recently-received element from the
/// buffer.
/// * customError: When full, execute the closure to provide a custom error.
/// A strategy that handles exhaustion of a buffers capacity.
public enum BufferingStrategy<Failure: Error> {
/// When full, discard the newly-received element without buffering it.
/// When the buffer is full, discard the newly received element.
case dropNewest
/// When full, remove the least recently-received element from the buffer.
/// When the buffer is full, discard the oldest element in the buffer.
case dropOldest
/// When full, execute the closure to provide a custom error.
/// When the buffer is full, execute the closure to provide a custom error.
case customError(() -> Failure)
}
@@ -98,7 +105,11 @@ extension Publishers {
public func receive<Downstream: Subscriber>(subscriber: Downstream)
where Downstream.Input == Output, Downstream.Failure == Failure
{
upstream.subscribe(Inner(downstream: subscriber, buffer: self))
let inner = Inner(downstream: subscriber,
size: size,
prefetch: prefetch,
whenFull: whenFull)
upstream.subscribe(inner)
}
}
}
@@ -120,17 +131,19 @@ extension Publishers.Buffer {
typealias Failure = Upstream.Failure
private enum State {
case ready(Publishers.Buffer<Upstream>, Downstream)
case subscribed(Publishers.Buffer<Upstream>, Downstream, Subscription)
case terminal
}
private let lock = UnfairLock.allocate()
private var recursion = false
private var state: State
private let size: Int
private let prefetch: Publishers.PrefetchStrategy // keepFull is 0x0
private let whenFull: Publishers.BufferingStrategy<Failure>
private let downstream: Downstream
private var state = SubscriptionStatus.awaitingSubscription
private var downstreamDemand = Subscribers.Demand.none
@@ -142,8 +155,14 @@ extension Publishers.Buffer {
private var terminal: Subscribers.Completion<Failure>?
init(downstream: Downstream, buffer: Publishers.Buffer<Upstream>) {
state = .ready(buffer, downstream)
init(downstream: Downstream,
size: Int,
prefetch: Publishers.PrefetchStrategy,
whenFull: Publishers.BufferingStrategy<Failure>) {
self.size = size
self.prefetch = prefetch
self.whenFull = whenFull
self.downstream = downstream
}
deinit {
@@ -152,18 +171,18 @@ extension Publishers.Buffer {
func receive(subscription: Subscription) {
lock.lock()
guard case let .ready(buffer, downstream) = state else {
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(buffer, downstream, subscription)
state = .subscribed(subscription)
lock.unlock()
let upstreamDemand: Subscribers.Demand
switch buffer.prefetch {
switch prefetch {
case .keepFull:
upstreamDemand = .max(buffer.size)
upstreamDemand = .max(size)
case .byRequest:
upstreamDemand = .unlimited
}
@@ -173,14 +192,14 @@ extension Publishers.Buffer {
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case let .subscribed(buffer, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return .none
}
switch terminal {
case nil, .finished?:
if values.count >= buffer.size {
switch buffer.whenFull {
if values.count >= size {
switch whenFull {
case .dropNewest:
lock.unlock()
return drain()
@@ -216,7 +235,7 @@ extension Publishers.Buffer {
func request(_ demand: Subscribers.Demand) {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
@@ -227,13 +246,16 @@ extension Publishers.Buffer {
return
}
// Request the number of items just enough to fill the buffer.
subscription.request(drain() + demand)
let more = drain()
if more != .none {
// Request the number of items just enough to fill the buffer.
subscription.request(more)
}
}
func cancel() {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
@@ -247,7 +269,7 @@ extension Publishers.Buffer {
var upstreamDemand = Subscribers.Demand.none
lock.lock()
while true {
guard case let .subscribed(buffer, downstream, _) = state else {
guard case .subscribed = state else {
lock.unlock()
return upstreamDemand
}
@@ -296,7 +318,7 @@ extension Publishers.Buffer {
additionalUpstreamDemand += 1
}
if buffer.prefetch == .keepFull {
if prefetch == .keepFull {
upstreamDemand += additionalUpstreamDemand
}
@@ -309,9 +331,7 @@ extension Publishers.Buffer {
private func lockedPop(_ demand: Subscribers.Demand) -> [Input] {
assert(demand > 0)
guard let max = demand.max else {
let poppedValues = self.values
self.values = []
return poppedValues
return values.take()
}
let poppedValues = Array(values.prefix(max))
Sources/OpenCombine/Publishers/Publishers.Catch.swift.gyb
+76 -23
View File
@@ -13,27 +13,30 @@ extension Publisher {
/// Handles errors from an upstream publisher by replacing it with another publisher.
///
/// The following example replaces any error from the upstream publisher and replaces
/// the upstream with a `Just` publisher. This continues the stream by publishing
/// a single value and completing normally.
/// ```
/// enum SimpleError: Error { case error }
/// let errorPublisher = (0..<10).publisher.tryMap { v -> Int in
/// if v < 5 {
/// return v
/// } else {
/// throw SimpleError.error
/// }
/// }
/// Use `catch()` to replace an error from an upstream publisher with a new publisher.
///
/// In the example below, the `catch()` operator handles the `SimpleError` thrown by
/// the upstream publisher by replacing the error with a `Just` publisher. This
/// continues the stream by publishing a single value and completing normally.
///
/// struct SimpleError: Error {}
/// let numbers = [5, 4, 3, 2, 1, 0, 9, 8, 7, 6]
/// cancellable = numbers.publisher
/// .tryLast(where: {
/// guard $0 != 0 else { throw SimpleError() }
/// return true
/// })
/// .catch { error in
/// Just(-1)
/// }
/// .sink { print("\($0)") }
/// // Prints: -1
///
/// let noErrorPublisher = errorPublisher.catch { _ in
/// return Just(100)
/// }
/// ```
/// Backpressure note: This publisher passes through `request` and `cancel` to
/// the upstream. After receiving an error, the publisher sends sends any unfulfilled
/// demand to the new `Publisher`.
///
/// - SeeAlso: `replaceError`
/// - Parameter handler: A closure that accepts the upstream failure as input and
/// returns a publisher to replace the upstream publisher.
/// - Returns: A publisher that handles errors from an upstream publisher by replacing
@@ -47,13 +50,48 @@ extension Publisher {
}
/// Handles errors from an upstream publisher by either replacing it with another
/// publisher or `throw`ing a new error.
/// publisher or throwing a new error.
///
/// - Parameter handler: A `throw`ing closure that accepts the upstream failure as
/// input and returns a publisher to replace the upstream publisher or if an error
/// is thrown will send the error downstream.
/// Use `tryCatch(_:)` to decide how to handle from an upstream publisher by either
/// replacing the publisher with a new publisher, or throwing a new error.
///
/// In the example below, an array publisher emits values that a `tryMap(_:)` operator
/// evaluates to ensure the values are greater than zero. If the values arent greater
/// than zero, the operator throws an error to the downstream subscriber to let it
/// know there was a problem. The subscriber, `tryCatch(_:)`, replaces the error with
/// a new publisher using ``Just`` to publish a final value before the stream ends
/// normally.
///
/// enum SimpleError: Error { case error }
/// var numbers = [5, 4, 3, 2, 1, -1, 7, 8, 9, 10]
///
/// cancellable = numbers.publisher
/// .tryMap { v in
/// if v > 0 {
/// return v
/// } else {
/// throw SimpleError.error
/// }
/// }
/// .tryCatch { error in
/// Just(0) // Send a final value before completing normally.
/// // Alternatively, throw a new error to terminate the stream.
/// }
/// .sink(receiveCompletion: { print ("Completion: \($0).") },
/// receiveValue: { print ("Received \($0).") })
/// // Received 5.
/// // Received 4.
/// // Received 3.
/// // Received 2.
/// // Received 1.
/// // Received 0.
/// // Completion: finished.
///
/// - Parameter handler: A throwing closure that accepts the upstream failure as
/// input. This closure can either replace the upstream publisher with a new one,
/// or throw a new error to the downstream subscriber.
/// - Returns: A publisher that handles errors from an upstream publisher by replacing
/// the failed publisher with another publisher.
/// the failed publisher with another publisher, or an error.
public func tryCatch<NewPublisher: Publisher>(
_ handler: @escaping (Failure) throws -> NewPublisher
) -> Publishers.TryCatch<Self, NewPublisher>
@@ -103,8 +141,12 @@ extension Publishers {
}
}
/// A publisher that handles errors from an upstream publisher by replacing the failed
/// publisher with another publisher or optionally producing a new error.
/// A publisher that handles errors from an upstream publisher by replacing
/// the failed publisher with another publisher or producing a new error.
///
/// Because this publishers handler can throw an error, `Publishers.TryCatch` defines
/// its `Failure` type as `Error`. This is different from `Publishers.Catch`, which
/// gets its failure type from the replacement publisher.
public struct TryCatch<Upstream: Publisher, NewPublisher: Publisher>: Publisher
where Upstream.Output == NewPublisher.Output
{
@@ -112,10 +154,21 @@ extension Publishers {
public typealias Failure = Error
/// The publisher that this publisher receives elements from.
public let upstream: Upstream
/// A closure that accepts the upstream failure as input and either returns
/// a publisher to replace the upstream publisher or throws an error.
public let handler: (Upstream.Failure) throws -> NewPublisher
/// Creates a publisher that handles errors from an upstream publisher by
/// replacing the failed publisher with another publisher or by throwing an error.
///
/// - Parameters:
/// - upstream: The publisher that this publisher receives elements from.
/// - handler: A closure that accepts the upstream failure as input and either
/// returns a publisher to replace the upstream publisher. If this closure
/// throws an error, the publisher terminates with the thrown error.
public init(upstream: Upstream,
handler: @escaping (Upstream.Failure) throws -> NewPublisher) {
self.upstream = upstream
Sources/OpenCombine/Publishers/Publishers.Collect.swift
+21 -4
View File
@@ -10,13 +10,30 @@ extension Publisher {
/// Collects all received elements, and emits a single array of the collection when
/// the upstream publisher finishes.
///
/// Use `collect()` to gather elements into an array that the operator emits after
/// the upstream publisher finishes.
///
/// If the upstream publisher fails with an error, this publisher forwards the error
/// to the downstream receiver instead of sending its output.
///
/// This publisher requests an unlimited number of elements from the upstream
/// publisher. It only sends the collected array to its downstream after a request
/// whose demand is greater than 0 items.
/// Note: This publisher uses an unbounded amount of memory to store the received
/// values.
/// publisher and uses an unbounded amount of memory to store the received values.
/// The publisher may exert memory pressure on the system for very large sets of
/// elements.
///
/// The `collect()` operator only sends the collected array to its downstream receiver
/// after a request whose demand is greater than 0 items. Otherwise, `collect()` waits
/// until it receives a non-zero request.
///
/// In the example below, an Integer range is a publisher that emits an array of
/// integers:
///
/// let numbers = (0...10)
/// cancellable = numbers.publisher
/// .collect()
/// .sink { print("\($0)") }
///
/// // Prints: "[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10]"
///
/// - Returns: A publisher that collects all received items and returns them as
/// an array upon completion.
Sources/OpenCombine/Publishers/Publishers.CollectByCount.swift
+20 -10
View File
@@ -10,12 +10,25 @@ extension Publisher {
/// Collects up to the specified number of elements, and then emits a single array of
/// the collection.
///
/// If the upstream publisher finishes before filling the buffer, this publisher sends
/// an array of all the items it has received. This may be fewer than `count`
/// elements.
/// Use `collect(_:)` to emit arrays of at most `count` elements from an upstream
/// publisher. If the upstream publisher finishes before collecting the specified
/// number of elements, the publisher sends an array of only the items it received
/// This may be fewer than `count` elements.
///
/// If the upstream publisher fails with an error, this publisher forwards the error
/// to the downstream receiver instead of sending its output.
/// Note: When this publisher receives a request for `.max(n)` elements, it requests
///
/// In the example below, the `collect(_:)` operator emits one partial and two full
/// arrays based on the requested collection size of `5`:
///
/// let numbers = (0...10)
/// cancellable = numbers.publisher
/// .collect(5)
/// .sink { print("\($0), terminator: " "") }
///
/// // Prints "[0, 1, 2, 3, 4] [5, 6, 7, 8, 9] [10] "
///
/// > Note: When this publisher receives a request for `.max(n)` elements, it requests
/// `.max(count * n)` from the upstream publisher.
///
/// - Parameter count: The maximum number of received elements to buffer before
@@ -115,8 +128,7 @@ extension Publishers.CollectByCount {
lock.unlock()
return .none
}
let output = self.buffer
self.buffer = []
let output = self.buffer.take()
lock.unlock()
return downstream.receive(output) * count
}
@@ -130,8 +142,7 @@ extension Publishers.CollectByCount {
if buffer.isEmpty {
lock.unlock()
} else {
let buffer = self.buffer
self.buffer = []
let buffer = self.buffer.take()
lock.unlock()
_ = downstream.receive(buffer)
}
@@ -155,10 +166,9 @@ extension Publishers.CollectByCount {
func cancel() {
lock.lock()
if let subscription = self.subscription {
if let subscription = self.subscription.take() {
buffer = []
finished = true
self.subscription = nil
lock.unlock()
subscription.cancel()
} else {
Sources/OpenCombine/Publishers/Publishers.CompactMap.swift
+102 -29
View File
@@ -7,29 +7,79 @@
extension Publisher {
/// Calls a closure with each received element and publishes any returned
/// optional that has a value.
/// Calls a closure with each received element and publishes any returned optional
/// that has a value.
///
/// - Parameter transform: A closure that receives a value and returns
/// an optional value.
/// - Returns: A publisher that republishes all non-`nil` results of calling
/// the transform closure.
/// OpenCombines `compactMap(_:)` operator performs a function similar to that of
/// `compactMap(_:)` in the Swift standard library: the `compactMap(_:)` operator in
/// OpenCombine removes `nil` elements in a publishers stream and republishes
/// non-`nil` elements to the downstream subscriber.
///
/// The example below uses a range of numbers as the source for a collection based
/// publisher. The `compactMap(_:)` operator consumes each element from the `numbers`
/// publisher attempting to access the dictionary using the element as the key.
/// If the examples dictionary returns a `nil`, due to a non-existent key,
/// `compactMap(_:)` filters out the `nil` (missing) elements.
///
/// let numbers = (0...5)
/// let romanNumeralDict: [Int : String] =
/// [1: "I", 2: "II", 3: "III", 5: "V"]
///
/// cancellable = numbers.publisher
/// .compactMap { romanNumeralDict[$0] }
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "I II III V"
///
/// - Parameter transform: A closure that receives a value and returns an optional
/// value.
/// - Returns: Any non-`nil` optional results of the calling the supplied closure.
public func compactMap<ElementOfResult>(
_ transform: @escaping (Output) -> ElementOfResult?
) -> Publishers.CompactMap<Self, ElementOfResult> {
return .init(upstream: self, transform: transform)
}
/// Calls an error-throwing closure with each received element and publishes
/// any returned optional that has a value.
/// Calls an error-throwing closure with each received element and publishes any
/// returned optional that has a value.
///
/// If the closure throws an error, the publisher cancels the upstream and sends
/// the thrown error to the downstream receiver as a `Failure`.
/// Use `tryCompactMap(_:)` to remove `nil` elements from a publishers stream based
/// on an error-throwing closure you provide. If the closure throws an error,
/// the publisher cancels the upstream publisher and sends the thrown error to
/// the downstream subscriber as a `Publisher.Failure`.
///
/// - Parameter transform: an error-throwing closure that receives a value
/// and returns an optional value.
/// - Returns: A publisher that republishes all non-`nil` results of calling
/// the `transform` closure.
/// The following example uses an array of numbers as the source for
/// a collection-based publisher. A `tryCompactMap(_:)` operator consumes each integer
/// from the publisher and uses a dictionary to transform the numbers from its Arabic
/// to Roman numerals, as an optional `String`.
///
/// If the closure called by `tryCompactMap(_:)` fails to look up a Roman numeral,
/// it returns the optional String `(unknown)`.
///
/// If the closure called by `tryCompactMap(_:)` determines the input is `0`, it
/// throws an error. The `tryCompactMap(_:)` operator catches this error and stops
/// publishing, sending a `Subscribers.Completion.failure(_:)` that wraps the error.
///
/// struct ParseError: Error {}
/// func romanNumeral(from: Int) throws -> String? {
/// let romanNumeralDict: [Int : String] =
/// [1: "I", 2: "II", 3: "III", 4: "IV", 5: "V"]
/// guard from != 0 else { throw ParseError() }
/// return romanNumeralDict[from]
/// }
/// let numbers = [6, 5, 4, 3, 2, 1, 0]
/// cancellable = numbers.publisher
/// .tryCompactMap { try romanNumeral(from: $0) }
/// .sink(
/// receiveCompletion: { print ("\($0)") },
/// receiveValue: { print ("\($0)", terminator: " ") }
/// )
///
/// // Prints: "(Unknown) V IV III II I failure(ParseError())"
///
/// - Parameter transform: An error-throwing closure that receives a value and returns
/// an optional value.
/// - Returns: Any non-`nil` optional results of calling the supplied closure.
public func tryCompactMap<ElementOfResult>(
_ transform: @escaping (Output) throws -> ElementOfResult?
) -> Publishers.TryCompactMap<Self, ElementOfResult> {
@@ -122,23 +172,48 @@ extension Publishers {
}
extension Publishers.CompactMap {
private final class Inner<Downstream: Subscriber>
: FilterProducer<Downstream,
Upstream.Output,
Output,
Upstream.Failure,
(Upstream.Output) -> Output?>
where Downstream.Failure == Upstream.Failure, Downstream.Input == Output
private struct Inner<Downstream: Subscriber>
: Subscriber,
CustomStringConvertible,
CustomReflectable,
CustomPlaygroundDisplayConvertible
where Upstream.Failure == Downstream.Failure
{
// NOTE: This class has been audited for thread safety
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
override func receive(
newValue: Upstream.Output
) -> PartialCompletion<Output?, Downstream.Failure> {
return .continue(filter(newValue))
private let downstream: Downstream
private let filter: (Input) -> Downstream.Input?
let combineIdentifier = CombineIdentifier()
init(downstream: Downstream, filter: @escaping (Input) -> Downstream.Input?) {
self.downstream = downstream
self.filter = filter
}
override var description: String { return "CompactMap" }
func receive(subscription: Subscription) {
downstream.receive(subscription: subscription)
}
func receive(_ input: Input) -> Subscribers.Demand {
if let output = filter(input) {
return downstream.receive(output)
}
return .max(1)
}
func receive(completion: Subscribers.Completion<Failure>) {
downstream.receive(completion: completion)
}
var description: String { return "CompactMap" }
var customMirror: Mirror {
return Mirror(self, children: EmptyCollection())
}
var playgroundDescription: Any { return description }
}
}
@@ -151,8 +226,6 @@ extension Publishers.TryCompactMap {
(Upstream.Output) throws -> Output?>
where Downstream.Failure == Error, Downstream.Input == Output
{
// NOTE: This class has been audited for thread safety
override func receive(
newValue: Upstream.Output
) -> PartialCompletion<Output?, Error> {
Sources/OpenCombine/Publishers/Publishers.Comparison.swift
+138 -13
View File
@@ -10,6 +10,20 @@ extension Publisher where Output: Comparable {
/// Publishes the minimum value received from the upstream publisher, after it
/// finishes.
///
/// Use `min()` to find the minimum value in a stream of elements from
/// an upstream publisher.
///
/// In the example below, the `min()` operator emits a value when the publisher
/// finishes, that value is the minimum of the values received from upstream, which
/// is `-1`.
///
/// let numbers = [-1, 0, 10, 5]
/// numbers.publisher
/// .min()
/// .sink { print("\($0)") }
///
/// // Prints: "-1"
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
@@ -22,6 +36,20 @@ extension Publisher where Output: Comparable {
/// Publishes the maximum value received from the upstream publisher, after it
/// finishes.
///
/// Use `max()` to determine the maximum value in the stream of elements from
/// an upstream publisher.
///
/// In the example below, the `max()` operator emits a value when the publisher
/// finishes, that value is the maximum of the values received from upstream, which
/// is `10`.
///
/// let numbers = [0, 10, 5]
/// cancellable = numbers.publisher
/// .max()
/// .sink { print("\($0)") }
///
/// // Prints: "10"
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
@@ -37,11 +65,36 @@ extension Publisher {
/// Publishes the minimum value received from the upstream publisher, after it
/// finishes.
///
/// Use `min(by:)` to determine the minimum value in the stream of elements from
/// an upstream publisher using a comparison operation you specify.
///
/// This operator is useful when the value received from the upstream publisher isnt
/// `Comparable`.
///
/// In the example below an array publishes enumeration elements representing playing
/// card ranks. The `min(by:)` operator compares the current and next elements using
/// the `rawValue` property of each enumeration value in the user supplied closure and
/// prints the minimum value found after publishing all of the elements.
///
/// enum Rank: Int {
/// case ace = 1, two, three, four, five, six, seven, eight, nine,
/// ten, jack, queen, king
/// }
///
/// let cards: [Rank] = [.five, .queen, .ace, .eight, .king]
/// cancellable = cards.publisher
/// .min {
/// return $0.rawValue < $1.rawValue
/// }
/// .sink { print("\($0)") }
///
/// // Prints: "ace"
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
/// - Parameter areInIncreasingOrder: A closure that receives two elements and returns
/// `true` if they are in increasing order.
/// `true` if theyre in increasing order.
/// - Returns: A publisher that publishes the minimum value received from the upstream
/// publisher, after the upstream publisher finishes.
public func min(
@@ -50,15 +103,39 @@ extension Publisher {
return max(by: { areInIncreasingOrder($1, $0) })
}
/// Publishes the minimum value received from the upstream publisher, using the
/// provided error-throwing closure to order the items.
/// Publishes the minimum value received from the upstream publisher, using
/// the provided error-throwing closure to order the items.
///
/// Use `tryMin(by:)` to determine the minimum value of elements received from
/// the upstream publisher using an error-throwing closure you specify.
///
/// In the example below, an array publishes elements. The `tryMin(by:)` operator
/// executes the error-throwing closure that throws when the `first` element is an odd
/// number, terminating the publisher.
///
/// struct IllegalValueError: Error {}
///
/// let numbers: [Int] = [0, 10, 6, 13, 22, 22]
/// numbers.publisher
/// .tryMin { first, second -> Bool in
/// if (first % 2 != 0) {
/// throw IllegalValueError()
/// }
/// return first < second
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints: "completion: failure(IllegalValueError())"
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
/// - Parameter areInIncreasingOrder: A throwing closure that receives two elements
/// and returns `true` if they are in increasing order. If this closure throws, the
/// publisher terminates with a `Failure`.
/// and returns `true` if theyre in increasing order. If this closure throws,
/// the publisher terminates with a `Subscribers.Completion.failure(_:)`.
/// - Returns: A publisher that publishes the minimum value received from the upstream
/// publisher, after the upstream publisher finishes.
public func tryMin(
@@ -67,14 +144,36 @@ extension Publisher {
return tryMax(by: { try areInIncreasingOrder($1, $0) })
}
/// Publishes the maximum value received from the upstream publisher, using the
/// provided ordering closure.
/// Publishes the maximum value received from the upstream publisher, using
/// the provided ordering closure.
///
/// Use `max(by:)` to determine the maximum value of elements received from
/// the upstream publisher based on an ordering closure you specify.
///
/// In the example below, an array publishes enumeration elements representing playing
/// card ranks. The `max(by:)` operator compares the current and next elements using
/// the `rawValue` property of each enumeration value in the user supplied closure and
/// prints the maximum value found after publishing all of the elements.
///
/// enum Rank: Int {
/// case ace = 1, two, three, four, five, six, seven, eight, nine,
/// ten, jack, queen, king
/// }
///
/// let cards: [Rank] = [.five, .queen, .ace, .eight, .jack]
/// cancellable = cards.publisher
/// .max {
/// return $0.rawValue > $1.rawValue
/// }
/// .sink { print("\($0)") }
///
/// // Prints: "queen"
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
/// - Parameter areInIncreasingOrder: A closure that receives two elements and returns
/// `true` if they are in increasing order.
/// `true` if theyre in increasing order.
/// - Returns: A publisher that publishes the maximum value received from the upstream
/// publisher, after the upstream publisher finishes.
public func max(
@@ -83,16 +182,42 @@ extension Publisher {
return .init(upstream: self, areInIncreasingOrder: areInIncreasingOrder)
}
/// Publishes the maximum value received from the upstream publisher, using the
/// provided error-throwing closure to order the items.
/// Publishes the maximum value received from the upstream publisher, using
/// the provided error-throwing closure to order the items.
///
/// Use `tryMax(by:)` to determine the maximum value of elements received from
/// the upstream publisher using an error-throwing closure you specify.
///
/// In the example below, an array publishes elements. The `tryMax(by:)` operator
/// executes the error-throwing closure that throws when the `first` element is
/// an odd number, terminating the publisher.
///
/// struct IllegalValueError: Error {}
///
/// let numbers: [Int] = [0, 10, 6, 13, 22, 22]
/// cancellable = numbers.publisher
/// .tryMax { first, second -> Bool in
/// if (first % 2 != 0) {
/// throw IllegalValueError()
/// }
/// return first > second
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints: completion: failure(IllegalValueError())
///
/// After this publisher receives a request for more than 0 items, it requests
/// unlimited items from its upstream publisher.
///
/// - Parameter areInIncreasingOrder: A throwing closure that receives two elements
/// and returns `true` if they are in increasing order. If this closure throws, the
/// publisher terminates with a `Failure`.
/// and returns `true` if theyre in increasing order. If this closure throws,
/// the publisher terminates with a ``Subscribers/Completion/failure(_:)``.
///
/// - Returns: A publisher that publishes the maximum value received from the upstream
/// publisher, after the upstream publisher finishes.
/// publisher, after the upstream publisher finishes.
public func tryMax(
by areInIncreasingOrder: @escaping (Output, Output) throws -> Bool
) -> Publishers.TryComparison<Self> {
Sources/OpenCombine/Publishers/Publishers.Concatenate.swift
+318 -92
View File
@@ -7,7 +7,20 @@
extension Publisher {
/// Prefixes a `Publisher`'s output with the specified sequence.
/// Prefixes a publishers output with the specified values.
///
/// Use `prepend(_:)` when you need to prepend specific elements before the output
/// of a publisher.
///
/// In the example below, the `prepend(_:)` operator publishes the provided elements
/// before republishing all elements from `dataElements`:
///
/// let dataElements = (0...10)
/// cancellable = dataElements.publisher
/// .prepend(0, 1, 255)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "0 1 255 0 1 2 3 4 5 6 7 8 9 10"
///
/// - Parameter elements: The elements to publish before this publishers elements.
/// - Returns: A publisher that prefixes the specified elements prior to this
@@ -18,7 +31,21 @@ extension Publisher {
return prepend(elements)
}
/// Prefixes a `Publisher`'s output with the specified sequence.
/// Prefixes a publishers output with the specified sequence.
///
/// Use `prepend(_:)` to publish values from two publishers when you need to prepend
/// one publishers elements to another.
///
/// In this example the `/prepend(_:)-v9sb` operator publishes the provided sequence
/// before republishing all elements from `dataElements`:
///
/// let prefixValues = [0, 1, 255]
/// let dataElements = (0...10)
/// cancellable = dataElements.publisher
/// .prepend(prefixValues)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "0 1 255 0 1 2 3 4 5 6 7 8 9 10"
///
/// - Parameter elements: A sequence of elements to publish before this publishers
/// elements.
@@ -32,10 +59,22 @@ extension Publisher {
return prepend(.init(sequence: elements))
}
/// Prefixes this publishers output with the elements emitted by the given publisher.
/// Prefixes the output of this publisher with the elements emitted by the given
/// publisher.
///
/// The resulting publisher doesnt emit any elements until the prefixing publisher
/// finishes.
/// Use `prepend(_:)` to publish values from two publishers when you need to prepend
/// one publishers elements to another.
///
/// In the example below, a publisher of `prefixValues` publishes its elements before
/// the `dataElements` publishes its elements:
///
/// let prefixValues = [0, 1, 255]
/// let dataElements = (0...10)
/// cancellable = dataElements.publisher
/// .prepend(prefixValues.publisher)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "0 1 255 0 1 2 3 4 5 6 7 8 9 10"
///
/// - Parameter publisher: The prefixing publisher.
/// - Returns: A publisher that prefixes the prefixing publishers elements prior to
@@ -48,14 +87,51 @@ extension Publisher {
return .init(prefix: publisher, suffix: self)
}
/// Append a `Publisher`'s output with the specified sequence.
/// Appends a publishers output with the specified elements.
///
/// Use `append(_:)` when you need to prepend specific elements after the output of
/// a publisher.
///
/// In the example below, the `append(_:)` operator publishes the provided elements
/// after republishing all elements from `dataElements`:
///
/// let dataElements = (0...10)
/// cancellable = dataElements.publisher
/// .append(0, 1, 255)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "0 1 2 3 4 5 6 7 8 9 10 0 1 255"
///
///
/// - Parameter elements: Elements to publish after this publishers elements.
/// - Returns: A publisher that appends the specifiecd elements after this publishers
/// elements.
public func append(
_ elements: Output...
) -> Publishers.Concatenate<Self, Publishers.Sequence<[Output], Failure>> {
return append(elements)
}
/// Appends a `Publisher`'s output with the specified sequence.
/// Appends a publishers output with the specified sequence.
///
/// Use `append(_:)` to append a sequence to the end of
/// a publishers output.
///
/// In the example below, the `append(_:)` publisher republishes all elements from
/// `groundTransport` until it finishes, then publishes the members of `airTransport`:
///
/// let groundTransport = ["car", "bus", "truck", "subway", "bicycle"]
/// let airTransport = ["parasail", "jet", "helicopter", "rocket"]
/// cancellable = groundTransport.publisher
/// .append(airTransport)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "car bus truck subway bicycle parasail jet helicopter rocket"
///
/// - Parameter elements: A sequence of elements to publish after this publishers
/// elements.
/// - Returns: A publisher that appends the sequence of elements after this
/// publishers elements.
public func append<Elements: Sequence>(
_ elements: Elements
) -> Publishers.Concatenate<Self, Publishers.Sequence<Elements, Failure>>
@@ -64,12 +140,26 @@ extension Publisher {
return append(.init(sequence: elements))
}
/// Appends this publishers output with the elements emitted by the given publisher.
/// Appends the output of this publisher with the elements emitted by the given
/// publisher.
///
/// This operator produces no elements until this publisher finishes. It then produces
/// this publishers elements, followed by the given publishers elements.
/// If this publisher fails with an error, the prefixing publisher does not publish
/// the provided publishers elements.
/// Use `append(_:)` to append the output of one publisher to another.
/// The `append(_:)` operator produces no elements until this publisher finishes.
/// It then produces this publishers elements, followed by the given publishers
/// elements. If this publisher fails with an error, the given publishers elements
/// arent published.
///
/// In the example below, the `append` publisher republishes all elements from
/// the `numbers` publisher until it finishes, then publishes all elements from
/// the `otherNumbers` publisher:
///
/// let numbers = (0...10)
/// let otherNumbers = (25...35)
/// cancellable = numbers.publisher
/// .append(otherNumbers.publisher)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "0 1 2 3 4 5 6 7 8 9 10 25 26 27 28 29 30 31 32 33 34 35 "
///
/// - Parameter publisher: The appending publisher.
/// - Returns: A publisher that appends the appending publishers elements after this
@@ -110,8 +200,7 @@ extension Publishers {
where Suffix.Failure == Downstream.Failure, Suffix.Output == Downstream.Input
{
let inner = Inner(downstream: subscriber, suffix: suffix)
subscriber.receive(subscription: inner)
prefix.subscribe(inner)
prefix.subscribe(Inner<Downstream>.PrefixSubscriber(inner: inner))
}
}
}
@@ -119,9 +208,8 @@ extension Publishers {
extension Publishers.Concatenate: Equatable where Prefix: Equatable, Suffix: Equatable {}
extension Publishers.Concatenate {
private final class Inner<Downstream: Subscriber>
: Subscriber,
Subscription,
fileprivate final class Inner<Downstream: Subscriber>
: Subscription,
CustomStringConvertible,
CustomReflectable,
CustomPlaygroundDisplayConvertible
@@ -131,22 +219,26 @@ extension Publishers.Concatenate {
typealias Failure = Suffix.Failure
fileprivate struct PrefixSubscriber {
let inner: Inner<Downstream>
}
fileprivate struct SuffixSubscriber {
let inner: Inner<Downstream>
}
private let downstream: Downstream
private let suffix: Suffix
private var prefixState = SubscriptionStatus.awaitingSubscription
private var prefixFinished = false
private var suffixState = SubscriptionStatus.awaitingSubscription
private var demand = Subscribers.Demand.none
private var suffix: Suffix?
private var upstream: Subscription?
private var expectedSubscriptions = 2
private var pending = Subscribers.Demand.none
private let lock = UnfairLock.allocate()
private let downstreamLock = UnfairRecursiveLock.allocate()
fileprivate init(downstream: Downstream, suffix: Suffix) {
self.downstream = downstream
self.suffix = suffix
@@ -154,65 +246,13 @@ extension Publishers.Concatenate {
deinit {
lock.deallocate()
downstreamLock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard upstream == nil, expectedSubscriptions > 0 else {
lock.unlock()
subscription.cancel()
return
}
upstream = subscription
expectedSubscriptions -= 1
let demand = self.demand
lock.unlock()
if demand > 0 {
subscription.request(demand)
}
}
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
demand -= 1
lock.unlock()
downstreamLock.lock()
let newDemand = downstream.receive(input)
downstreamLock.unlock()
lock.lock()
demand += newDemand
lock.unlock()
return newDemand
}
func receive(completion: Subscribers.Completion<Failure>) {
// Reading prefixFinished should be locked. Combine doesn't lock here.
if prefixFinished {
downstreamLock.lock()
downstream.receive(completion: completion)
downstreamLock.unlock()
return
}
guard case .finished = completion else {
downstreamLock.lock()
downstream.receive(completion: completion)
downstreamLock.unlock()
return
}
prefixFinished = true // Should be locked as well?
lock.lock()
upstream = nil
lock.unlock()
suffix.subscribe(self)
}
func request(_ demand: Subscribers.Demand) {
lock.lock()
self.demand += demand
guard let subscription = upstream else {
pending += demand
guard let subscription = prefixState.subscription ?? suffixState.subscription
else {
lock.unlock()
return
}
@@ -222,27 +262,213 @@ extension Publishers.Concatenate {
func cancel() {
lock.lock()
guard let subscription = upstream else {
let upstreamSubscription =
prefixState.subscription ?? suffixState.subscription
prefixState = .terminal
suffixState = .terminal
// We MUST release the object AFTER unlocking the lock,
// since releasing it may trigger execution of arbitrary code,
// for example, if the object has a deinit.
// When the object deallocates, its deinit is called, and holding
// the lock at that moment can lead to deadlocks.
withExtendedLifetime(suffix) {
suffix = nil
lock.unlock()
return
upstreamSubscription?.cancel()
}
upstream = nil
lock.unlock()
subscription.cancel()
}
var description: String { return "Concatenate" }
var customMirror: Mirror {
let children: [Mirror.Child] = [
("downstream", downstream),
("upstreamSubscription", upstream as Any),
("suffix", suffix),
("demand", demand)
]
return Mirror(self, children: children)
return Mirror(self, children: EmptyCollection())
}
var playgroundDescription: Any { return description }
// MARK: - Private
private func prefixReceive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = prefixState else {
lock.unlock()
subscription.cancel()
return
}
prefixState = .subscribed(subscription)
lock.unlock()
downstream.receive(subscription: self)
}
private func prefixReceive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case .subscribed = prefixState, pending != .none else {
lock.unlock()
return .none
}
pending -= 1
lock.unlock()
let newDemand = downstream.receive(input)
if newDemand == .none {
return .none
}
lock.lock()
pending += newDemand
lock.unlock()
return newDemand
}
private func prefixReceive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case .subscribed = prefixState else {
lock.unlock()
return
}
prefixState = .terminal
lock.unlock()
switch completion {
case .finished:
suffix?.subscribe(SuffixSubscriber(inner: self))
case .failure:
downstream.receive(completion: completion)
}
}
private func suffixReceive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = suffixState else {
lock.unlock()
subscription.cancel()
return
}
suffixState = .subscribed(subscription)
let pending = self.pending
lock.unlock()
if pending != .none {
subscription.request(pending)
}
}
private func suffixReceive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case .subscribed = suffixState else {
lock.unlock()
return .none
}
lock.unlock()
return downstream.receive(input)
}
private func suffixReceive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case .subscribed = suffixState else {
lock.unlock()
return
}
prefixState = .terminal
suffixState = .terminal
lock.unlock()
downstream.receive(completion: completion)
}
}
}
// MARK: - PrefixSubscriber conformances
extension Publishers.Concatenate.Inner.PrefixSubscriber: Subscriber {
fileprivate typealias Input = Suffix.Output
fileprivate typealias Failure = Suffix.Failure
fileprivate var combineIdentifier: CombineIdentifier {
return inner.combineIdentifier
}
fileprivate func receive(subscription: Subscription) {
inner.prefixReceive(subscription: subscription)
}
fileprivate func receive(_ input: Input) -> Subscribers.Demand {
return inner.prefixReceive(input)
}
fileprivate func receive(completion: Subscribers.Completion<Failure>) {
inner.prefixReceive(completion: completion)
}
}
extension Publishers.Concatenate.Inner.PrefixSubscriber
: CustomStringConvertible
{
fileprivate var description: String {
return inner.description
}
}
extension Publishers.Concatenate.Inner.PrefixSubscriber
: CustomReflectable
{
fileprivate var customMirror: Mirror {
return inner.customMirror
}
}
extension Publishers.Concatenate.Inner.PrefixSubscriber
: CustomPlaygroundDisplayConvertible
{
fileprivate var playgroundDescription: Any {
return inner.playgroundDescription
}
}
// MARK: - SuffixSubscriber conformances
extension Publishers.Concatenate.Inner.SuffixSubscriber: Subscriber {
fileprivate typealias Input = Suffix.Output
fileprivate typealias Failure = Suffix.Failure
fileprivate var combineIdentifier: CombineIdentifier {
return inner.combineIdentifier
}
fileprivate func receive(subscription: Subscription) {
inner.suffixReceive(subscription: subscription)
}
fileprivate func receive(_ input: Input) -> Subscribers.Demand {
return inner.suffixReceive(input)
}
fileprivate func receive(completion: Subscribers.Completion<Failure>) {
inner.suffixReceive(completion: completion)
}
}
extension Publishers.Concatenate.Inner.SuffixSubscriber
: CustomStringConvertible
{
fileprivate var description: String {
return inner.description
}
}
extension Publishers.Concatenate.Inner.SuffixSubscriber
: CustomReflectable
{
fileprivate var customMirror: Mirror {
return inner.customMirror
}
}
extension Publishers.Concatenate.Inner.SuffixSubscriber
: CustomPlaygroundDisplayConvertible
{
fileprivate var playgroundDescription: Any {
return inner.playgroundDescription
}
}
Sources/OpenCombine/Publishers/Publishers.Contains.swift
+72 -14
View File
@@ -9,10 +9,22 @@ extension Publisher where Output: Equatable {
/// Publishes a Boolean value upon receiving an element equal to the argument.
///
/// The contains publisher consumes all received elements until the upstream publisher
/// produces a matching element. At that point, it emits `true` and finishes normally.
/// If the upstream finishes normally without producing a matching element,
/// this publisher emits `false`, then finishes.
/// Use `contains(_:)` to find the first element in an upstream thats equal to
/// the supplied argument. The `Publishers.Contains` publisher consumes all received
/// elements until the upstream publisher produces a matching element. Upon finding
/// the first match, it emits `true` and finishes normally. If the upstream finishes
/// normally without producing a matching element, this publisher emits `false` and
/// finishes.
///
/// In the example below, the `contains(_:)` operator emits `true` the first time it
/// receives the value `5` from the `numbers.publisher`, and then finishes normally.
///
/// let numbers = [-1, 5, 10, 5]
/// numbers.publisher
/// .contains(5)
/// .sink { print("\($0)") }
///
/// // Prints: "true"
///
/// - Parameter output: An element to match against.
/// - Returns: A publisher that emits the Boolean value `true` when the upstream
@@ -27,12 +39,27 @@ extension Publisher {
/// Publishes a Boolean value upon receiving an element that satisfies the predicate
/// closure.
///
/// This operator consumes elements produced from the upstream publisher until
/// the upstream publisher produces a matching element.
/// Use `contains(where:)` to find the first element in an upstream that satisfies
/// the closure you provide. This operator consumes elements produced from
/// the upstream publisher until the upstream publisher produces a matching element.
///
/// This operator is useful when the upstream publisher produces elements that dont
/// conform to `Equatable`.
///
/// In the example below, the `contains(where:)` operator tests elements against
/// the supplied closure and emits `true` for the first elements thats greater than
/// `4`, and then finishes normally.
///
/// let numbers = [-1, 0, 10, 5]
/// numbers.publisher
/// .contains {$0 > 4}
/// .sink { print("\($0)") }
///
/// // Prints: "true"
///
/// - Parameter predicate: A closure that takes an element as its parameter and
/// returns a Boolean value indicating whether the element satisfies the closures
/// comparison logic.
/// returns a Boolean value that indicates whether the element satisfies
/// the closures comparison logic.
/// - Returns: A publisher that emits the Boolean value `true` when the upstream
/// publisher emits a matching value.
public func contains(
@@ -41,16 +68,47 @@ extension Publisher {
return .init(upstream: self, predicate: predicate)
}
/// Publishes a Boolean value upon receiving an element that satisfies
/// the throwing predicate closure.
/// Publishes a Boolean value upon receiving an element that satisfies the throwing
/// predicate closure.
///
/// Use `tryContains(where:)` to find the first element in an upstream that satisfies
/// the error-throwing closure you provide.
///
/// This operator consumes elements produced from the upstream publisher until
/// the upstream publisher produces a matching element. If the closure throws,
/// the stream fails with an error.
/// the upstream publisher either:
///
/// - Produces a matching element, after which it emits `true` and the publisher
/// finishes normally.
/// - Emits `false` if no matching element is found and the publisher finishes
/// normally.
///
/// If the predicate throws an error, the publisher fails, passing the error to its
/// downstream.
///
/// In the example below, the `tryContains(where:)` operator tests values to find
/// an element less than `10`; when the closure finds an odd number, like `3`,
/// the publisher terminates with an `IllegalValueError`.
///
/// struct IllegalValueError: Error {}
///
/// let numbers = [3, 2, 10, 5, 0, 9]
/// numbers.publisher
/// .tryContains {
/// if ($0 % 2 != 0) {
/// throw IllegalValueError()
/// }
/// return $0 < 10
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints: "completion: failure(IllegalValueError())"
///
/// - Parameter predicate: A closure that takes an element as its parameter and
/// returns a Boolean value indicating whether the element satisfies the closures
/// comparison logic.
/// returns a Boolean value that indicates whether the element satisfies
/// the closures comparison logic.
/// - Returns: A publisher that emits the Boolean value `true` when the upstream
/// publisher emits a matching value.
public func tryContains(
Sources/OpenCombine/Publishers/Publishers.Count.swift
+11 -1
View File
@@ -9,8 +9,18 @@ extension Publisher {
/// Publishes the number of elements received from the upstream publisher.
///
/// Use `count(`` to determine the number of elements received from the upstream
/// publisher before it completes:
///
/// let numbers = (0...10)
/// cancellable = numbers.publisher
/// .count()
/// .sink { print("\($0)") }
///
/// // Prints: "11"
///
/// - Returns: A publisher that consumes all elements until the upstream publisher
/// finishes, then emits a single value with the total number of elements received.
/// finishes, then emits a single value with the total number of elements received.
public func count() -> Publishers.Count<Self> {
return Publishers.Count(upstream: self)
}
Sources/OpenCombine/Publishers/Publishers.Debounce.swift
+87 -19
View File
@@ -9,10 +9,57 @@ extension Publisher {
/// Publishes elements only after a specified time interval elapses between events.
///
/// Use this operator when you want to wait for a pause in the delivery of events from
/// the upstream publisher. For example, call `debounce` on the publisher from a text
/// field to only receive elements when the user pauses or stops typing. When they
/// start typing again, the `debounce` holds event delivery until the next pause.
/// Use the `debounce(for:scheduler:options:)` operator to control the number of
/// values and time between delivery of values from the upstream publisher. This
/// operator is useful to process bursty or high-volume event streams where you need
/// to reduce the number of values delivered to the downstream to a rate you specify.
///
/// In this example, a `PassthroughSubject` publishes elements on a schedule defined
/// by the `bounces` array. The array is composed of tuples representing a value sent
/// by the `PassthroughSubject`, and a `TimeInterval` ranging from one-quarter second
/// up to 2 seconds that drives a delivery timer. As the queue builds, elements
/// arriving faster than one-half second `debounceInterval` are discarded, while
/// elements arriving at a rate slower than `debounceInterval` are passed through to
/// the `sink(receiveValue:)` operator.
///
/// let bounces:[(Int,TimeInterval)] = [
/// (0, 0),
/// (1, 0.25), // 0.25s interval since last index
/// (2, 1), // 0.75s interval since last index
/// (3, 1.25), // 0.25s interval since last index
/// (4, 1.5), // 0.25s interval since last index
/// (5, 2) // 0.5s interval since last index
/// ]
///
/// let subject = PassthroughSubject<Int, Never>()
/// cancellable = subject
/// .debounce(for: .seconds(0.5), scheduler: RunLoop.main)
/// .sink { index in
/// print ("Received index \(index)")
/// }
///
/// for bounce in bounces {
/// DispatchQueue.main.asyncAfter(deadline: .now() + bounce.1) {
/// subject.send(bounce.0)
/// }
/// }
///
/// // Prints:
/// // Received index 1
/// // Received index 4
/// // Received index 5
///
/// // Here is the event flow shown from the perspective of time, showing value
/// // delivery through the `debounce()` operator:
///
/// // Time 0: Send index 0.
/// // Time 0.25: Send index 1. Index 0 was waiting and is discarded.
/// // Time 0.75: Debounce period ends, publish index 1.
/// // Time 1: Send index 2.
/// // Time 1.25: Send index 3. Index 2 was waiting and is discarded.
/// // Time 1.5: Send index 4. Index 3 was waiting and is discarded.
/// // Time 2: Debounce period ends, publish index 4. Also, send index 5.
/// // Time 2.5: Debounce period ends, publish index 5.
///
/// - Parameters:
/// - dueTime: The time the publisher should wait before publishing an element.
@@ -92,6 +139,17 @@ extension Publishers.Debounce {
private typealias Generation = UInt64
private enum CancellerState {
case pending
case active(Cancellable)
fileprivate func cancel() {
if case let .active(cancellable) = self {
cancellable.cancel()
}
}
}
private let lock = UnfairLock.allocate()
private let downstreamLock = UnfairRecursiveLock.allocate()
@@ -106,7 +164,7 @@ extension Publishers.Debounce {
private var state = SubscriptionStatus.awaitingSubscription
private var currentCanceller: Cancellable?
private var currentCancellers = [Generation : CancellerState]()
private var currentValue: Output?
@@ -146,7 +204,6 @@ extension Publishers.Debounce {
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
precondition(!state.isAwaitingSubscription)
guard case .subscribed = state else {
lock.unlock()
return .none
@@ -155,32 +212,36 @@ extension Publishers.Debounce {
let generation = currentGeneration
currentValue = input
let due = scheduler.now.advanced(by: dueTime)
let previousCancellers = self.currentCancellers.take()
currentCancellers[generation] = .pending
lock.unlock()
let newCanceller = scheduler.schedule(after: due,
interval: dueTime,
tolerance: scheduler.minimumTolerance,
options: options) { [weak self] in
self?.due(generation: generation)
options: options) {
self.due(generation: generation)
}
lock.lock()
let canceller = currentCanceller
currentCanceller = newCanceller
currentCancellers[generation] = .active(newCanceller)
lock.unlock()
canceller?.cancel()
for canceller in previousCancellers.values {
canceller.cancel()
}
return .none
}
func receive(completion: Subscribers.Completion<Upstream.Failure>) {
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
precondition(!state.isAwaitingSubscription)
guard case .subscribed = state else {
lock.unlock()
return
}
state = .terminal
let canceller = currentCanceller
let previousCancellers = currentCancellers.take()
lock.unlock()
canceller?.cancel()
for canceller in previousCancellers.values {
canceller.cancel()
}
scheduler.schedule {
self.downstreamLock.lock()
self.downstream.receive(completion: completion)
@@ -190,7 +251,6 @@ extension Publishers.Debounce {
func request(_ demand: Subscribers.Demand) {
lock.lock()
precondition(!state.isAwaitingSubscription)
guard case .subscribed = state else {
lock.unlock()
return
@@ -206,7 +266,11 @@ extension Publishers.Debounce {
return
}
state = .terminal
let previousCancellers = currentCancellers.take()
lock.unlock()
for canceller in previousCancellers.values {
canceller.cancel()
}
subscription.cancel()
}
@@ -233,18 +297,22 @@ extension Publishers.Debounce {
// If this condition holds, it means that no values were received
// in this time frame => we should propagate the current value downstream.
guard generation == currentGeneration, let value = currentValue else {
let canceller = currentCanceller
let canceller = currentCancellers[generation]
lock.unlock()
canceller?.cancel()
return
}
let hasAnyDemand = downstreamDemand > 0
guard let canceller = currentCancellers[generation].take() else {
lock.unlock()
return
}
let hasAnyDemand = downstreamDemand != .none
if hasAnyDemand {
downstreamDemand -= 1
}
let canceller = currentCanceller!
lock.unlock()
canceller.cancel()
Sources/OpenCombine/Publishers/Publishers.Delay.swift
+109 -47
View File
@@ -7,8 +7,52 @@
extension Publisher {
/// Delays delivery of all output to the downstream receiver by a specified amount
/// of time on a particular scheduler.
/// Delays delivery of all output to the downstream receiver by a specified amount of
/// time on a particular scheduler.
///
/// Use `delay(for:tolerance:scheduler:options:)` when you need to delay the delivery
/// of elements to a downstream by a specified amount of time.
///
/// In this example, a `Timer` publishes an event every second.
/// The `delay(for:tolerance:scheduler:options:)` operator holds the delivery of
/// the initial element for 3 seconds (±0.5 seconds), after which each element is
/// delivered to the downstream on the main run loop after the specified delay:
///
/// let df = DateFormatter()
/// df.dateStyle = .none
/// df.timeStyle = .long
/// cancellable = Timer.publish(every: 1.0, on: .main, in: .default)
/// .autoconnect()
/// .handleEvents(receiveOutput: { date in
/// print ("Sending Timestamp \'\(df.string(from: date))\' to delay()")
/// })
/// .delay(for: .seconds(3), scheduler: RunLoop.main, options: .none)
/// .sink(
/// receiveCompletion: { print ("completion: \($0)", terminator: "\n") },
/// receiveValue: { value in
/// let now = Date()
/// print("""
/// At \(df.string(from: now)) received Timestamp \
/// \'\(df.string(from: value))\' \
/// sent: \(String(format: "%.2f", now.timeIntervalSince(value)))
/// secs ago
/// """)
/// }
/// )
///
/// // Prints:
/// // Sending Timestamp '5:02:33 PM PDT' to delay()
/// // Sending Timestamp '5:02:34 PM PDT' to delay()
/// // Sending Timestamp '5:02:35 PM PDT' to delay()
/// // Sending Timestamp '5:02:36 PM PDT' to delay()
/// // At 5:02:36 PM PDT received Timestamp '5:02:33 PM PDT' sent: 3.00
/// // secs ago
/// // Sending Timestamp '5:02:37 PM PDT' to delay()
/// // At 5:02:37 PM PDT received Timestamp '5:02:34 PM PDT' sent: 3.00
/// // secs ago
/// // Sending Timestamp '5:02:38 PM PDT' to delay()
/// // At 5:02:38 PM PDT received Timestamp '5:02:35 PM PDT' sent: 3.00
/// // secs ago
///
/// The delay affects the delivery of elements and completion, but not of the original
/// subscription.
@@ -17,6 +61,7 @@ extension Publisher {
/// - interval: The amount of time to delay.
/// - tolerance: The allowed tolerance in firing delayed events.
/// - scheduler: The scheduler to deliver the delayed events.
/// - options: Options relevant to the schedulers behavior.
/// - Returns: A publisher that delays delivery of elements and completion to
/// the downstream receiver.
public func delay<Context: Scheduler>(
@@ -74,7 +119,12 @@ extension Publishers {
where Upstream.Failure == Downstream.Failure,
Upstream.Output == Downstream.Input
{
upstream.subscribe(Inner(self, downstream: subscriber))
let inner = Inner(downstream: subscriber,
interval: interval,
tolerance: tolerance,
scheduler: scheduler,
options: options)
upstream.subscribe(inner)
}
}
}
@@ -85,25 +135,28 @@ extension Publishers.Delay {
Subscription
where Downstream.Input == Upstream.Output, Downstream.Failure == Upstream.Failure
{
// NOTE: This class has been audited for thread safety
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
fileprivate typealias Delay = Publishers.Delay<Upstream, Context>
private enum State {
case ready(Delay, Downstream)
case subscribed(Delay, Downstream, Subscription)
case terminal
}
private let lock = UnfairLock.allocate()
private var state: State
private let downstream: Downstream
private let interval: Context.SchedulerTimeType.Stride
private let tolerance: Context.SchedulerTimeType.Stride
private let scheduler: Context
private let options: Context.SchedulerOptions?
private var state = SubscriptionStatus.awaitingSubscription
private let downstreamLock = UnfairRecursiveLock.allocate()
fileprivate init(_ publisher: Delay, downstream: Downstream) {
state = .ready(publisher, downstream)
fileprivate init(downstream: Downstream,
interval: Context.SchedulerTimeType.Stride,
tolerance: Context.SchedulerTimeType.Stride,
scheduler: Context,
options: Context.SchedulerOptions?) {
self.downstream = downstream
self.interval = interval
self.tolerance = tolerance
self.scheduler = scheduler
self.options = options
}
deinit {
@@ -111,73 +164,82 @@ extension Publishers.Delay {
downstreamLock.deallocate()
}
private func schedule(_ delay: Delay, work: @escaping () -> Void) {
delay
.scheduler
.schedule(after: delay.scheduler.now.advanced(by: delay.interval),
tolerance: delay.tolerance,
options: delay.options,
private func schedule(_ work: @escaping () -> Void) {
scheduler
.schedule(after: scheduler.now.advanced(by: interval),
tolerance: tolerance,
options: options,
work)
}
func receive(subscription: Subscription) {
lock.lock()
guard case let .ready(delay, downstream) = state else {
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(delay, downstream, subscription)
state = .subscribed(subscription)
lock.unlock()
downstreamLock.lock()
downstream.receive(subscription: self)
downstreamLock.unlock()
}
func receive(_ input: Upstream.Output) -> Subscribers.Demand {
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
guard case let .subscribed(delay, downstream, _) = state else {
guard case .subscribed = state else {
lock.unlock()
return .none
}
lock.unlock()
schedule(delay) {
self.scheduledReceive(input, downstream: downstream)
schedule {
self.scheduledReceive(input)
}
return .none
}
private func scheduledReceive(_ input: Upstream.Output, downstream: Downstream) {
downstreamLock.lock()
let newDemand = downstream.receive(input)
downstreamLock.unlock()
guard newDemand > 0 else {
return
}
private func scheduledReceive(_ input: Input) {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard state.subscription != nil else {
lock.unlock()
return
}
lock.unlock()
subscription.request(newDemand)
downstreamLock.lock()
let newDemand = downstream.receive(input)
downstreamLock.unlock()
if newDemand == .none { return }
lock.lock()
let subscription = state.subscription
lock.unlock()
subscription?.request(newDemand)
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case let .subscribed(delay, downstream, _) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
state = .pendingTerminal(subscription)
lock.unlock()
schedule {
self.scheduledReceive(completion: completion)
}
}
private func scheduledReceive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case .pendingTerminal = state else {
assertionFailure(
"This branch should not be reachable! Please report a bug."
)
lock.unlock()
return
}
state = .terminal
lock.unlock()
schedule(delay) {
self.scheduledReceive(completion: completion, downstream: downstream)
}
}
private func scheduledReceive(completion: Subscribers.Completion<Failure>,
downstream: Downstream) {
downstreamLock.lock()
downstream.receive(completion: completion)
downstreamLock.unlock()
@@ -185,7 +247,7 @@ extension Publishers.Delay {
func request(_ demand: Subscribers.Demand) {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
@@ -195,7 +257,7 @@ extension Publishers.Delay {
func cancel() {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
Sources/OpenCombine/Publishers/Publishers.Drop.swift
+21 -9
View File
@@ -8,8 +8,20 @@
extension Publisher {
/// Omits the specified number of elements before republishing subsequent elements.
///
/// - Parameter count: The number of elements to omit.
/// - Returns: A publisher that does not republish the first `count` elements.
/// Use `dropFirst(_:)` when you want to drop the first `n` elements from the upstream
/// publisher, and republish the remaining elements.
///
/// The example below drops the first five elements from the stream:
///
/// let numbers = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
/// cancellable = numbers.publisher
/// .dropFirst(5)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "6 7 8 9 10 "
///
/// - Parameter count: The number of elements to omit. The default is `1`.
/// - Returns: A publisher that doesnt republish the first `count` elements.
public func dropFirst(_ count: Int = 1) -> Publishers.Drop<Self> {
return .init(upstream: self, count: count)
}
@@ -40,8 +52,8 @@ extension Publishers {
Upstream.Output == Downstream.Input
{
let inner = Inner(downstream: subscriber, count: count)
upstream.subscribe(inner)
subscriber.receive(subscription: inner)
upstream.subscribe(inner)
}
}
}
@@ -58,8 +70,6 @@ extension Publishers.Drop {
where Upstream.Output == Downstream.Input,
Upstream.Failure == Downstream.Failure
{
// NOTE: This class has been audited for thread safety.
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
@@ -94,7 +104,7 @@ extension Publishers.Drop {
precondition(count >= 0, "count must not be negative")
let demandToRequestFromUpstream = pendingDemand + count
lock.unlock()
if demandToRequestFromUpstream > 0 {
if demandToRequestFromUpstream != .none {
subscription.request(demandToRequestFromUpstream)
}
}
@@ -109,8 +119,9 @@ extension Publishers.Drop {
}
func receive(completion: Subscribers.Completion<Upstream.Failure>) {
// Combine doesn't lock here!
lock.lock()
subscription = nil
lock.unlock()
downstream.receive(completion: completion)
}
@@ -127,9 +138,10 @@ extension Publishers.Drop {
}
func cancel() {
// Combine doesn't lock here!
lock.lock()
let subscription = self.subscription.take()
lock.unlock()
subscription?.cancel()
subscription = nil
}
var description: String { return "Drop" }
Sources/OpenCombine/Publishers/Publishers.DropUntilOutput.swift
+29 -13
View File
@@ -10,20 +10,39 @@ extension Publisher {
/// Ignores elements from the upstream publisher until it receives an element from
/// a second publisher.
///
/// This publisher requests a single value from the upstream publisher, and it ignores
/// (drops) all elements from that publisher until the upstream publisher produces
/// a value. After the `other` publisher produces an element, this publisher cancels
/// its subscription to the `other` publisher, and allows events from the `upstream`
/// publisher to pass through.
/// Use `drop(untilOutputFrom:)` to ignore elements from the upstream publisher until
/// another, second, publisher delivers its first element.
/// This publisher requests a single value from the second publisher, and it ignores
/// (drops) all elements from the upstream publisher until the second publisher
/// produces a value. After the second publisher produces an element,
/// `drop(untilOutputFrom:)` cancels its subscription to the second publisher, and
/// allows events from the upstream publisher to pass through.
///
/// After this publisher receives a subscription from the upstream publisher, it
/// passes through backpressure requests from downstream to the upstream publisher.
/// If the upstream publisher acts on those requests before the other publisher
/// produces an item, this publisher drops the elements it receives from the upstream
/// publisher.
///
/// In the example below, the `pub1` publisher defers publishing its elements until
/// the `pub2` publisher delivers its first element:
///
/// let upstream = PassthroughSubject<Int, Never>()
/// let second = PassthroughSubject<String, Never>()
/// cancellable = upstream
/// .drop(untilOutputFrom: second)
/// .sink { print("\($0)", terminator: " ") }
///
/// upstream.send(1)
/// upstream.send(2)
/// second.send("A")
/// upstream.send(3)
/// upstream.send(4)
/// // Prints "3 4"
///
/// - Parameter publisher: A publisher to monitor for its first emitted element.
/// - Returns: A publisher that drops elements from the upstream publisher until the
/// `other` publisher produces a value.
/// - Returns: A publisher that drops elements from the upstream publisher until
/// the `other` publisher produces a value.
public func drop<Other: Publisher>(
untilOutputFrom publisher: Other
) -> Publishers.DropUntilOutput<Self, Other> where Failure == Other.Failure {
@@ -185,8 +204,7 @@ extension Publishers.DropUntilOutput {
}
otherFinished = true
if let upstreamSubscription = self.upstreamSubscription {
self.upstreamSubscription = nil
if let upstreamSubscription = self.upstreamSubscription.take() {
lock.unlock()
upstreamSubscription.cancel()
} else {
@@ -210,10 +228,8 @@ extension Publishers.DropUntilOutput {
func cancel() {
lock.lock()
let upstreamSubscription = self.upstreamSubscription
let otherSubscription = self.otherSubscription
self.upstreamSubscription = nil
self.otherSubscription = nil
let upstreamSubscription = self.upstreamSubscription.take()
let otherSubscription = self.otherSubscription.take()
cancelled = true
lock.unlock()
Sources/OpenCombine/Publishers/Publishers.DropWhile.swift
+42 -1
View File
@@ -10,6 +10,21 @@ extension Publisher {
/// Omits elements from the upstream publisher until a given closure returns false,
/// before republishing all remaining elements.
///
/// Use `drop(while:)` to omit elements from an upstream publisher until the element
/// received meets a condition you specify.
///
/// In the example below, the operator omits all elements in the stream until
/// the first element arrives thats a positive integer, after which the operator
/// publishes all remaining elements:
///
/// let numbers = [-62, -1, 0, 10, 0, 22, 41, -1, 5]
/// cancellable = numbers.publisher
/// .drop { $0 <= 0 }
/// .sink { print("\($0)") }
///
/// // Prints: "10 0 22 41 -1 5"
///
///
/// - Parameter predicate: A closure that takes an element as a parameter and returns
/// a Boolean value indicating whether to drop the element from the publishers
/// output.
@@ -24,7 +39,33 @@ extension Publisher {
/// Omits elements from the upstream publisher until an error-throwing closure returns
/// false, before republishing all remaining elements.
///
/// If the predicate closure throws, the publisher fails with an error.
/// Use `Publisher/tryDrop(while:)` to omit elements from an upstream until
/// an error-throwing closure you provide returns false, after which the remaining
/// items in the stream are published. If the closure throws, no elements are emitted
/// and the publisher fails with an error.
///
/// In the example below, elements are ignored until `-1` is encountered in the stream
/// and the closure returns `false`. The publisher then republishes the remaining
/// elements and finishes normally. Conversely, if the `guard` value in the closure
/// had been encountered, the closure would throw and the publisher would fail with
/// an error.
///
/// struct RangeError: Error {}
/// var numbers = [1, 2, 3, 4, 5, 6, -1, 7, 8, 9, 10]
/// let range: CountableClosedRange<Int> = (1...100)
/// cancellable = numbers.publisher
/// .tryDrop {
/// guard $0 != 0 else { throw RangeError() }
/// return range.contains($0)
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints: "-1 7 8 9 10 completion: finished"
/// // If instead numbers was [1, 2, 3, 4, 5, 6, 0, -1, 7, 8, 9, 10],
/// // tryDrop(while:) would fail with a RangeError.
///
/// - Parameter predicate: A closure that takes an element as a parameter and returns
/// a Boolean value indicating whether to drop the element from the publishers
Sources/OpenCombine/Publishers/Publishers.Encode.swift.gyb
+122 -13
View File
@@ -11,16 +11,100 @@ instantiations = ['Encode', 'Decode']
}%
extension Publisher {
/// Encodes the output from upstream using a specified `TopLevelEncoder`.
/// For example, use `JSONEncoder`.
/// Encodes the output from upstream using a specified encoder.
///
/// Use `encode(encoder:)` with a `JSONDecoder` (or a `PropertyListDecoder` for
/// property lists) to encode an `Encodable` struct into `Data` that could be used to
/// make a JSON string (or written to disk as a binary plist in the case of property
/// lists).
///
/// In this example, a `PassthroughSubject` publishes an `Article`.
/// The `encode(encoder:)` operator encodes the properties of the `Article` struct
/// into a new JSON string according to the `Codable` protocol adopted by `Article`.
/// The operator publishes the resulting JSON string to the downstream subscriber.
/// If the encoding operation fails, which can happen in the case of complex
/// properties that cant be directly transformed into JSON, the stream terminates
/// and the error is passed to the downstream subscriber.
///
/// struct Article: Codable {
/// let title: String
/// let author: String
/// let pubDate: Date
/// }
///
/// let dataProvider = PassthroughSubject<Article, Never>()
/// let cancellable = dataProvider
/// .encode(encoder: JSONEncoder())
/// .sink(receiveCompletion: { print ("Completion: \($0)") },
/// receiveValue: { data in
/// guard let stringRepresentation =
/// String(data: data, encoding: .utf8) else { return }
/// print("""
/// Data received \(data) string representation: \
/// \(stringRepresentation)
/// """)
/// })
///
/// dataProvider.send(Article(title: "My First Article",
/// author: "Gita Kumar",
/// pubDate: Date()))
///
/// // Prints: "Data received 86 bytes string representation:
/// // {"title":"My First Article","author":"Gita Kumar"
/// // "pubDate":606211803.279603}"
///
/// - Parameter encoder: An encoder that implements the `TopLevelEncoder` protocol.
/// - Returns: A publisher that encodes received elements using a specified encoder,
/// and publishes the resulting data.
public func encode<Coder: TopLevelEncoder>(
encoder: Coder
) -> Publishers.Encode<Self, Coder> {
return .init(upstream: self, encoder: encoder)
}
/// Decodes the output from upstream using a specified `TopLevelDecoder`.
/// For example, use `JSONDecoder`.
/// Decodes the output from the upstream using a specified decoder.
///
/// Use `decode(type:decoder:)` with a `JSONDecoder` (or a `PropertyListDecoder` for
/// property lists) to decode data received from a `URLSession.DataTaskPublisher` or
/// other data source using the `Decodable` protocol.
///
/// In this example, a `PassthroughSubject` publishes a JSON string. The JSON decoder
/// parses the string, converting its fields according to the `Decodable` protocol
/// implemented by `Article`, and successfully populating a new `Article`.
/// The `Publishers.Decode` publisher then publishes the `Article` to the downstream.
/// If a decoding operation fails, which happens in the case of missing or malformed
/// data in the source JSON string, the stream terminates and passes the error to
/// the downstream subscriber.
///
/// struct Article: Codable {
/// let title: String
/// let author: String
/// let pubDate: Date
/// }
///
/// let dataProvider = PassthroughSubject<Data, Never>()
/// cancellable = dataProvider
/// .decode(type: Article.self, decoder: JSONDecoder())
/// .sink(receiveCompletion: { print ("Completion: \($0)")},
/// receiveValue: { print ("value: \($0)") })
///
/// dataProvider.send(Data("""
/// {\"pubDate\":1574273638.575666, \
/// \"title\" : \"My First Article\", \
/// \"author\" : \"Gita Kumar\" }
/// """.utf8))
///
/// // Prints:
/// // ".sink() data received Article(title: "My First Article",
/// // author: "Gita Kumar",
/// // pubDate: 2050-11-20 18:13:58 +0000)"
///
/// - Parameters:
/// - type: The encoded data to decode into a struct that conforms to
/// the `Decodable` protocol.
/// - decoder: A decoder that implements the `TopLevelDecoder` protocol.
/// - Returns: A publisher that decodes a given type using a specified decoder and
/// publishes the result.
public func decode<Item: Decodable, Coder: TopLevelDecoder>(
type: Item.Type,
decoder: Coder
@@ -87,9 +171,6 @@ extension Publishers.${instantiation} {
CustomPlaygroundDisplayConvertible
where Downstream.Input == Output, Downstream.Failure == Error
{
// NOTE: This class has been audited for thread safety.
// Combine doesn't use any locking here.
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
@@ -98,6 +179,8 @@ extension Publishers.${instantiation} {
private let ${instantiation.lower()}: (Upstream.Output) throws -> Output
private let lock = UnfairLock.allocate()
private var finished = false
private var subscription: Subscription?
@@ -110,44 +193,70 @@ extension Publishers.${instantiation} {
self.${instantiation.lower()} = ${instantiation.lower()}
}
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
if finished || self.subscription != nil {
lock.unlock()
subscription.cancel()
return
}
self.subscription = subscription
lock.unlock()
downstream.receive(subscription: self)
}
func receive(_ input: Input) -> Subscribers.Demand {
if finished { return .none }
lock.lock()
if finished {
lock.unlock()
return .none
}
lock.unlock()
do {
return try downstream.receive(${instantiation.lower()}(input))
} catch {
lock.lock()
finished = true
let subscription = self.subscription.take()
lock.unlock()
subscription?.cancel()
subscription = nil
downstream.receive(completion: .failure(error))
return .none
}
}
func receive(completion: Subscribers.Completion<Failure>) {
if finished { return }
lock.lock()
if finished {
lock.unlock()
return
}
finished = true
subscription = nil
lock.unlock()
downstream.receive(completion: completion.eraseError())
}
func request(_ demand: Subscribers.Demand) {
lock.lock()
let subscription = self.subscription
lock.unlock()
subscription?.request(demand)
}
func cancel() {
guard let subscription = self.subscription, !finished else { return }
subscription.cancel()
self.subscription = nil
lock.lock()
guard !finished, let subscription = self.subscription.take() else {
lock.unlock()
return
}
finished = true
lock.unlock()
subscription.cancel()
}
var description: String { return "${instantiation}" }
Sources/OpenCombine/Publishers/Publishers.Filter.swift
+77 -17
View File
@@ -9,6 +9,20 @@ extension Publisher {
/// Republishes all elements that match a provided closure.
///
/// OpenCombines `filter(_:)` operator performs an operation similar to that of
/// `filter(_:)` in the Swift Standard Library: it uses a closure to test each element
/// to determine whether to republish the element to the downstream subscriber.
///
/// The following example, uses a filter operation that receives an `Int` and only
/// republishes a value if its even.
///
/// let numbers: [Int] = [1, 2, 3, 4, 5]
/// cancellable = numbers.publisher
/// .filter { $0 % 2 == 0 }
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "2 4"
///
/// - Parameter isIncluded: A closure that takes one element and returns
/// a Boolean value indicating whether to republish the element.
/// - Returns: A publisher that republishes all elements that satisfy the closure.
@@ -20,11 +34,34 @@ extension Publisher {
/// Republishes all elements that match a provided error-throwing closure.
///
/// Use `tryFilter(_:)` to filter elements evaluated in an error-throwing closure.
/// If the `isIncluded` closure throws an error, the publisher fails with that error.
///
/// - Parameter isIncluded: A closure that takes one element and returns a
/// Boolean value indicating whether to republish the element.
/// - Returns: A publisher that republishes all elements that satisfy the closure.
/// In the example below, `tryFilter(_:)` checks to see if the divisor provided by
/// the publisher is zero, and throws a `DivisionByZeroError` and then terminates
/// the publisher with the thrown error:
///
/// struct DivisionByZeroError: Error {}
///
/// let numbers: [Int] = [1, 2, 3, 4, 0, 5]
/// cancellable = numbers.publisher
/// .tryFilter {
/// if $0 == 0 {
/// throw DivisionByZeroError()
/// } else {
/// return $0 % 2 == 0
/// }
/// }
/// .sink(
/// receiveCompletion: { print ("\($0)") },
/// receiveValue: { print ("\($0)", terminator: " ") }
/// )
///
/// // Prints: "2 4 failure(DivisionByZeroError())".
///
/// - Parameter isIncluded: A closure that takes one element and returns a Boolean
/// value that indicated whether to republish the element or throws an error.
/// - Returns: A publisher that republishes all elements that satisfy the closure.
public func tryFilter(
_ isIncluded: @escaping (Output) throws -> Bool
) -> Publishers.TryFilter<Self> {
@@ -142,23 +179,48 @@ extension Publishers {
}
extension Publishers.Filter {
private final class Inner<Downstream: Subscriber>
: FilterProducer<Downstream,
Upstream.Output,
Upstream.Output,
Upstream.Failure,
(Upstream.Output) -> Bool>
private struct Inner<Downstream: Subscriber>
: Subscriber,
CustomStringConvertible,
CustomReflectable,
CustomPlaygroundDisplayConvertible
where Upstream.Output == Downstream.Input, Upstream.Failure == Downstream.Failure
{
// NOTE: This class has been audited for thread safety
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
override func receive(
newValue: Upstream.Output
) -> PartialCompletion<Upstream.Output?, Downstream.Failure> {
return filter(newValue) ? .continue(newValue) : .continue(nil)
private let downstream: Downstream
private let filter: (Input) -> Bool
let combineIdentifier = CombineIdentifier()
init(downstream: Downstream, filter: @escaping (Input) -> Bool) {
self.downstream = downstream
self.filter = filter
}
override var description: String { return "Filter" }
func receive(subscription: Subscription) {
downstream.receive(subscription: subscription)
}
func receive(_ input: Input) -> Subscribers.Demand {
if filter(input) {
return downstream.receive(input)
}
return .max(1)
}
func receive(completion: Subscribers.Completion<Failure>) {
downstream.receive(completion: completion)
}
var description: String { return "Filter" }
var customMirror: Mirror {
return Mirror(self, children: EmptyCollection())
}
var playgroundDescription: Any { return description }
}
}
@@ -171,8 +233,6 @@ extension Publishers.TryFilter {
(Upstream.Output) throws -> Bool>
where Downstream.Input == Upstream.Output, Downstream.Failure == Error
{
// NOTE: This class has been audited for thread safety
override func receive(
newValue: Upstream.Output
) -> PartialCompletion<Upstream.Output?, Error> {
Sources/OpenCombine/Publishers/Publishers.First.swift
+70 -19
View File
@@ -9,38 +9,89 @@ extension Publisher {
/// Publishes the first element of a stream, then finishes.
///
/// If this publisher doesnt receive any elements, it finishes without publishing.
/// Use `first()` to publish just the first element from an upstream publisher, then
/// finish normally. The `first()` operator requests `Subscribers.Demand.unlimited`
/// from its upstream as soon as downstream requests at least one element.
/// If the upstream completes before `first()` receives any elements, it completes
/// without emitting any values.
///
/// In this example, the `first()` publisher republishes the first element received
/// from the sequence publisher, `-10`, then finishes normally.
///
/// let numbers = (-10...10)
/// cancellable = numbers.publisher
/// .first()
/// .sink { print("\($0)") }
///
/// // Print: "-10"
///
/// - Returns: A publisher that only publishes the first element of a stream.
public func first() -> Publishers.First<Self> {
return .init(upstream: self)
}
/// Publishes the first element of a stream to
/// satisfy a predicate closure, then finishes.
/// Publishes the first element of a stream to satisfy a predicate closure, then
/// finishes normally.
///
/// The publisher ignores all elements after the first.
/// If this publisher doesnt receive any elements,
/// it finishes without publishing.
/// - Parameter predicate: A closure that takes an element as a parameter and
/// returns a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the first element of a stream
/// that satisfies the predicate.
/// Use `first(where:)` to republish only the first element of a stream that satisfies
/// a closure you specify. The publisher ignores all elements after the first element
/// that satisfies the closure and finishes normally.
/// If this publisher doesnt receive any elements, it finishes without publishing.
///
/// In the example below, the provided closure causes the `Publishers.FirstWhere`
/// publisher to republish the first received element thats greater than `0`,
/// then finishes normally.
///
/// let numbers = (-10...10)
/// cancellable = numbers.publisher
/// .first { $0 > 0 }
/// .sink { print("\($0)") }
///
/// // Prints: "1"
///
/// - Parameter predicate: A closure that takes an element as a parameter and returns
/// a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the first element of a stream that
/// satisfies the predicate.
public func first(
where predicate: @escaping (Output) -> Bool
) -> Publishers.FirstWhere<Self> {
return .init(upstream: self, predicate: predicate)
}
/// Publishes the first element of a stream to satisfy a
/// throwing predicate closure, then finishes.
/// Publishes the first element of a stream to satisfy a throwing predicate closure,
/// then finishes normally.
///
/// The publisher ignores all elements after the first. If this publisher
/// doesnt receive any elements, it finishes without publishing. If the
/// predicate closure throws, the publisher fails with an error.
/// - Parameter predicate: A closure that takes an element as a parameter and
/// returns a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the first element of a stream
/// that satisfies the predicate.
/// Use `tryFirst(where:)` when you need to republish only the first element of
/// a stream that satisfies an error-throwing closure you specify.
/// The publisher ignores all elements after the first. If this publisher doesnt
/// receive any elements, it finishes without publishing. If the predicate closure
/// throws an error, the publisher fails.
///
/// In the example below, a range publisher emits the first element in the range then
/// finishes normally:
///
/// let numberRange: ClosedRange<Int> = (-1...50)
/// numberRange.publisher
/// .tryFirst {
/// guard $0 < 99 else {throw RangeError()}
/// return true
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)", terminator: " ") },
/// receiveValue: { print ("\($0)", terminator: " ") }
/// )
///
/// // Prints: "-1 completion: finished"
/// // If instead the number range were ClosedRange<Int> = (100...200),
/// // the tryFirst operator would terminate publishing with a RangeError.
///
/// - Parameter predicate: A closure that takes an element as a parameter and returns
/// a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the first element of a stream that
/// satisfies the predicate.
public func tryFirst(
where predicate: @escaping (Output) throws -> Bool
) -> Publishers.TryFirstWhere<Self> {
Sources/OpenCombine/Publishers/Publishers.FlatMap.swift
+135 -26
View File
@@ -5,16 +5,57 @@
//
extension Publisher {
/// Transforms all elements from an upstream publisher into a new or existing
/// publisher.
/// Transforms all elements from an upstream publisher into a new publisher up to
/// a maximum number of publishers you specify.
///
/// `flatMap` merges the output from all returned publishers into a single stream of
/// output.
/// OpenCombines `flatMap(maxPublishers:_:)` operator performs a similar function
/// to the `flatMap(_:)` operator in the Swift standard library, but turns
/// the elements from one kind of publisher into a new publisher that is sent
/// to subscribers. Use `flatMap(maxPublishers:_:)` when you want to create a new
/// series of events for downstream subscribers based on the received value.
/// The closure creates the new `Publisher` based on the received value.
/// The new `Publisher` can emit more than one event, and successful completion of
/// the new `Publisher` does not complete the overall stream.
/// Failure of the new `Publisher` will fail the overall stream.
///
/// In the example below, a `PassthroughSubject` publishes `WeatherStation` elements.
/// The `flatMap(maxPublishers:_:)` receives each element, creates a `URL` from it,
/// and produces a new `URLSession.DataTaskPublisher`, which will publish the data
/// loaded from that `URL`.
///
/// public struct WeatherStation {
/// public let stationID: String
/// }
///
/// var weatherPublisher = PassthroughSubject<WeatherStation, URLError>()
///
/// cancellable = weatherPublisher
/// .flatMap { station -> URLSession.DataTaskPublisher in
/// let url = URL(string: """
/// https://weatherapi.example.com/stations/\(station.stationID)\
/// /observations/latest
/// """)!
/// return URLSession.shared.dataTaskPublisher(for: url)
/// }
/// .sink(
/// receiveCompletion: { completion in
/// // Handle publisher completion (normal or error).
/// },
/// receiveValue: {
/// // Process the received data.
/// }
/// )
///
/// weatherPublisher.send(WeatherStation(stationID: "KSFO")) // San Francisco, CA
/// weatherPublisher.send(WeatherStation(stationID: "EGLC")) // London, UK
/// weatherPublisher.send(WeatherStation(stationID: "ZBBB")) // Beijing, CN
///
/// - Parameters:
/// - maxPublishers: The maximum number of publishers produced by this method.
/// - transform: A closure that takes an element as a parameter and returns a
/// publisher that produces elements of that type.
/// - maxPublishers: Specifies the maximum number of concurrent publisher
/// subscriptions, or `Subscribers.Demand.unlimited` if unspecified.
/// - transform: A closure that takes an element as a parameter and returns
/// a publisher that produces elements of that type.
/// - Returns: A publisher that transforms elements from an upstream publisher into
/// a publisher of that elements type.
public func flatMap<Result, Child: Publisher>(
@@ -28,7 +69,72 @@ extension Publisher {
}
}
extension Publisher where Failure == Never {
/// Transforms all elements from an upstream publisher into a new publisher up to
/// a maximum number of publishers you specify.
///
/// - Parameters:
/// - maxPublishers: Specifies the maximum number of concurrent publisher
/// subscriptions, or `Subscribers.Demand.unlimited` if unspecified.
/// - transform: A closure that takes an element as a parameter and returns
/// a publisher that produces elements of that type.
/// - Returns: A publisher that transforms elements from an upstream publisher into
/// a publisher of that elements type.
public func flatMap<Child: Publisher>(
maxPublishers: Subscribers.Demand = .unlimited,
_ transform: @escaping (Output) -> Child
) -> Publishers.FlatMap<Child, Publishers.SetFailureType<Self, Child.Failure>> {
return setFailureType(to: Child.Failure.self)
.flatMap(maxPublishers: maxPublishers, transform)
}
/// Transforms all elements from an upstream publisher into a new publisher up to
/// a maximum number of publishers you specify.
///
/// - Parameters:
/// - maxPublishers: Specifies the maximum number of concurrent publisher
/// subscriptions, or `Subscribers.Demand.unlimited` if unspecified.
/// - transform: A closure that takes an element as a parameter and returns
/// a publisher that produces elements of that type.
/// - Returns: A publisher that transforms elements from an upstream publisher
/// into a publisher of that elements type.
public func flatMap<Child: Publisher>(
maxPublishers: Subscribers.Demand = .unlimited,
_ transform: @escaping (Output) -> Child
) -> Publishers.FlatMap<Child, Self> where Child.Failure == Never {
return .init(upstream: self, maxPublishers: maxPublishers, transform: transform)
}
}
extension Publisher {
/// Transforms all elements from an upstream publisher into a new publisher up to
/// a maximum number of publishers you specify.
///
/// - Parameters:
/// - maxPublishers: Specifies the maximum number of concurrent publisher
/// subscriptions, or `Subscribers.Demand.unlimited` if unspecified.
/// - transform: A closure that takes an element as a parameter and returns
/// a publisher that produces elements of that type.
/// - Returns: A publisher that transforms elements from an upstream publisher into
/// a publisher of that elements type.
public func flatMap<Child: Publisher>(
maxPublishers: Subscribers.Demand = .unlimited,
_ transform: @escaping (Output) -> Child
) -> Publishers.FlatMap<Publishers.SetFailureType<Child, Failure>, Self>
where Child.Failure == Never
{
return flatMap(maxPublishers: maxPublishers) {
transform($0).setFailureType(to: Failure.self)
}
}
}
extension Publishers {
/// A publisher that transforms elements from an upstream publisher into a new
/// publisher.
public struct FlatMap<Child: Publisher, Upstream: Publisher>: Publisher
where Child.Failure == Upstream.Failure
{
@@ -51,17 +157,17 @@ extension Publishers {
public func receive<Downstream: Subscriber>(subscriber: Downstream)
where Child.Output == Downstream.Input, Upstream.Failure == Downstream.Failure
{
let inner = Inner(downstream: subscriber,
let outer = Outer(downstream: subscriber,
maxPublishers: maxPublishers,
map: transform)
subscriber.receive(subscription: inner)
upstream.subscribe(inner)
subscriber.receive(subscription: outer)
upstream.subscribe(outer)
}
}
}
extension Publishers.FlatMap {
private final class Inner<Downstream: Subscriber>
private final class Outer<Downstream: Subscriber>
: Subscriber,
Subscription,
CustomStringConvertible,
@@ -137,7 +243,7 @@ extension Publishers.FlatMap {
subscription.request(maxPublishers)
}
fileprivate func receive(_ input: Upstream.Output) -> Subscribers.Demand {
fileprivate func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
let cancelledOrCompleted = self.cancelledOrCompleted
lock.unlock()
@@ -154,9 +260,9 @@ extension Publishers.FlatMap {
return .none
}
fileprivate func receive(completion: Subscribers.Completion<Child.Failure>) {
outerSubscription = nil
fileprivate func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
outerSubscription = nil
outerFinished = true
switch completion {
case .finished:
@@ -166,6 +272,8 @@ extension Publishers.FlatMap {
let wasAlreadyCancelledOrCompleted = cancelledOrCompleted
cancelledOrCompleted = true
for (_, subscription) in subscriptions {
// Cancelling subscriptions with the lock acquired. Not good,
// but that's what Combine does. This code path is tested.
subscription.cancel()
}
subscriptions = [:]
@@ -196,8 +304,7 @@ extension Publishers.FlatMap {
}
if demand == .unlimited {
downstreamDemand = .unlimited
let buffer = self.buffer
self.buffer = []
let buffer = self.buffer.take()
let subscriptions = self.subscriptions
lock.unlock()
downstreamLock.lock()
@@ -248,16 +355,19 @@ extension Publishers.FlatMap {
fileprivate func cancel() {
lock.lock()
if cancelledOrCompleted {
lock.unlock()
return
}
cancelledOrCompleted = true
let subscriptions = self.subscriptions
self.subscriptions = [:]
let subscriptions = self.subscriptions.take()
let outerSubscription = self.outerSubscription.take()
lock.unlock()
for (_, subscription) in subscriptions {
subscription.cancel()
}
// Combine doesn't acquire the lock here. Weird.
// Combine doesn't acquire outerLock here. Weird.
outerSubscription?.cancel()
outerSubscription = nil
}
// MARK: - Reflection
@@ -337,8 +447,7 @@ extension Publishers.FlatMap {
return
}
cancelledOrCompleted = true
let subscriptions = self.subscriptions
self.subscriptions = [:]
let subscriptions = self.subscriptions.take()
lock.unlock()
for (i, subscription) in subscriptions where i != index {
subscription.cancel()
@@ -365,9 +474,9 @@ extension Publishers.FlatMap {
private func releaseLockThenSendCompletionDownstreamIfNeeded(
outerFinished: Bool
) -> Bool {
#if DEBUG
#if DEBUG
lock.assertOwner() // Sanity check
#endif
#endif
if !cancelledOrCompleted && outerFinished && buffer.isEmpty &&
subscriptions.count + pendingSubscriptions == 0 {
cancelledOrCompleted = true
@@ -389,10 +498,10 @@ extension Publishers.FlatMap {
CustomReflectable,
CustomPlaygroundDisplayConvertible {
private let index: SubscriptionIndex
private let inner: Inner
private let inner: Outer
fileprivate let combineIdentifier = CombineIdentifier()
fileprivate init(index: SubscriptionIndex, inner: Inner) {
fileprivate init(index: SubscriptionIndex, inner: Outer) {
self.index = index
self.inner = inner
}
Sources/OpenCombine/Publishers/Publishers.HandleEvents.swift
+98 -31
View File
@@ -9,6 +9,35 @@ extension Publisher {
/// Performs the specified closures when publisher events occur.
///
/// Use `handleEvents` when you want to examine elements as they progress through
/// the stages of the publishers lifecycle.
///
/// In the example below, a publisher of integers shows the effect of printing
/// debugging information at each stage of the element-processing lifecycle:
///
/// let integers = (0...2)
/// cancellable = integers.publisher
/// .handleEvents(receiveSubscription: { subs in
/// print("Subscription: \(subs.combineIdentifier)")
/// }, receiveOutput: { anInt in
/// print("in output handler, received \(anInt)")
/// }, receiveCompletion: { _ in
/// print("in completion handler")
/// }, receiveCancel: {
/// print("received cancel")
/// }, receiveRequest: { (demand) in
/// print("received demand: \(demand.description)")
/// })
/// .sink { _ in return }
///
/// // Prints:
/// // received demand: unlimited
/// // Subscription: 0x7f81284734c0
/// // in output handler, received 0
/// // in output handler, received 1
/// // in output handler, received 2
/// // in completion handler
///
/// - Parameters:
/// - receiveSubscription: A closure that executes when the publisher receives
/// the subscription from the upstream publisher. Defaults to `nil`.
@@ -91,7 +120,6 @@ extension Publishers {
Upstream.Output == Downstream.Input
{
let inner = Inner(self, downstream: subscriber)
subscriber.receive(subscription: inner)
upstream.subscribe(inner)
}
}
@@ -110,13 +138,21 @@ extension Publishers.HandleEvents {
typealias Failure = Upstream.Failure
private var status = SubscriptionStatus.awaitingSubscription
private var pendingDemand = Subscribers.Demand.none
private let lock = UnfairLock.allocate()
private var events: Publishers.HandleEvents<Upstream>?
fileprivate var receiveSubscription: ((Subscription) -> Void)?
fileprivate var receiveOutput: ((Upstream.Output) -> Void)?
fileprivate var receiveCompletion:
((Subscribers.Completion<Upstream.Failure>) -> Void)?
fileprivate var receiveCancel: (() -> Void)?
fileprivate var receiveRequest: ((Subscribers.Demand) -> Void)?
private let downstream: Downstream
init(_ events: Publishers.HandleEvents<Upstream>, downstream: Downstream) {
self.events = events
self.receiveSubscription = events.receiveSubscription
self.receiveOutput = events.receiveOutput
self.receiveCompletion = events.receiveCompletion
self.receiveCancel = events.receiveCancel
self.receiveRequest = events.receiveRequest
self.downstream = downstream
}
@@ -125,61 +161,83 @@ extension Publishers.HandleEvents {
}
func receive(subscription: Subscription) {
events?.receiveSubscription?(subscription)
lock.lock()
if let receiveSubscription = self.receiveSubscription {
lock.unlock()
receiveSubscription(subscription)
lock.lock()
}
guard case .awaitingSubscription = status else {
lock.unlock()
subscription.cancel()
return
}
status = .subscribed(subscription)
let pendingDemand = self.pendingDemand
self.pendingDemand = .none
lock.unlock()
if pendingDemand > 0 {
subscription.request(pendingDemand)
}
downstream.receive(subscription: self)
}
func receive(_ input: Upstream.Output) -> Subscribers.Demand {
events?.receiveOutput?(input)
func receive(_ input: Input) -> Subscribers.Demand {
lock.lock()
if let receiveOutput = self.receiveOutput {
lock.unlock()
receiveOutput(input)
} else {
lock.unlock()
}
let newDemand = downstream.receive(input)
if newDemand > 0 {
events?.receiveRequest?(newDemand)
if newDemand == .none {
return newDemand
}
lock.lock()
if let receiveRequest = self.receiveRequest {
lock.unlock()
receiveRequest(newDemand)
} else {
lock.unlock()
}
return newDemand
}
func receive(completion: Subscribers.Completion<Upstream.Failure>) {
events?.receiveCompletion?(completion)
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
events = nil
status = .terminal
if let receiveCompletion = self.receiveCompletion {
lock.unlock()
receiveCompletion(completion)
lock.lock()
}
lockedTerminate()
lock.unlock()
downstream.receive(completion: completion)
}
func request(_ demand: Subscribers.Demand) {
events?.receiveRequest?(demand)
lock.lock()
if case let .subscribed(subscription) = status {
if let receiveRequest = self.receiveRequest {
lock.unlock()
subscription.request(demand)
return
receiveRequest(demand)
lock.lock()
}
pendingDemand += demand
lock.unlock()
}
func cancel() {
events?.receiveCancel?()
lock.lock()
guard case let .subscribed(subscription) = status else {
lock.unlock()
return
}
events = nil
status = .terminal
lock.unlock()
subscription.request(demand)
}
func cancel() {
lock.lock()
if let receiveCancel = self.receiveCancel {
lock.unlock()
receiveCancel()
lock.lock()
}
guard case let .subscribed(subscription) = status else {
lock.unlock()
return
}
lockedTerminate()
lock.unlock()
subscription.cancel()
}
@@ -189,5 +247,14 @@ extension Publishers.HandleEvents {
var customMirror: Mirror { return Mirror(self, children: EmptyCollection()) }
var playgroundDescription: Any { return description }
private func lockedTerminate() {
receiveSubscription = nil
receiveOutput = nil
receiveCompletion = nil
receiveCancel = nil
receiveRequest = nil
status = .terminal
}
}
}
Sources/OpenCombine/Publishers/Publishers.IgnoreOutput.swift
+29 -52
View File
@@ -6,10 +6,33 @@
extension Publisher {
/// Ignores all upstream elements, but passes along a completion
/// state (finished or failed).
/// Ingores all upstream elements, but passes along a completion state (finished or
/// failed).
///
/// Use the `ignoreOutput(`` operator to determine if a publisher is able to complete
/// successfully or would fail.
///
/// In the example below, the array publisher (`numbers`) delivers the first five of
/// its elements successfully, as indicated by the `ignoreOutput()` operator.
/// The operator consumes, but doesnt republish the elements downstream. However,
/// the sixth element, `0`, causes the error throwing closure to catch
/// a `NoZeroValuesAllowedError` that terminates the stream.
///
/// struct NoZeroValuesAllowedError: Error {}
/// let numbers = [1, 2, 3, 4, 5, 0, 6, 7, 8, 9]
/// cancellable = numbers.publisher
/// .tryFilter({ anInt in
/// guard anInt != 0 else { throw NoZeroValuesAllowedError() }
/// return anInt < 20
/// })
/// .ignoreOutput()
/// .sink(receiveCompletion: {print("completion: \($0)")},
/// receiveValue: {print("value \($0)")})
///
/// // Prints: "completion: failure(NoZeroValuesAllowedError())"
///
/// The output type of this publisher is `Never`.
///
/// - Returns: A publisher that ignores all upstream elements.
public func ignoreOutput() -> Publishers.IgnoreOutput<Self> {
return .init(upstream: self)
@@ -41,44 +64,27 @@ extension Publishers {
}
extension Publishers.IgnoreOutput {
private final class Inner<Downstream: Subscriber>
private struct Inner<Downstream: Subscriber>
: Subscriber,
Subscription,
CustomStringConvertible,
CustomReflectable,
CustomPlaygroundDisplayConvertible
where Downstream.Input == Never, Downstream.Failure == Upstream.Failure
{
// NOTE: This class has been audited for thread safety
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
private let downstream: Downstream
private var status = SubscriptionStatus.awaitingSubscription
private let lock = UnfairLock.allocate()
let combineIdentifier = CombineIdentifier()
fileprivate init(downstream: Downstream) {
self.downstream = downstream
}
deinit {
lock.deallocate()
}
func receive(subscription: Subscription) {
lock.lock()
guard case .awaitingSubscription = status else {
lock.unlock()
subscription.cancel()
return
}
status = .subscribed(subscription)
lock.unlock()
downstream.receive(subscription: self)
downstream.receive(subscription: subscription)
subscription.request(.unlimited)
}
@@ -87,42 +93,13 @@ extension Publishers.IgnoreOutput {
}
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case .subscribed = status else {
lock.unlock()
return
}
status = .terminal
lock.unlock()
downstream.receive(completion: completion)
}
func request(_ demand: Subscribers.Demand) {
// ignore and requests from downstream since we'll never send
// any values
}
func cancel() {
lock.lock()
guard case let .subscribed(subscription) = status else {
lock.unlock()
return
}
status = .terminal
lock.unlock()
subscription.cancel()
}
var description: String { return "IgnoreOutput" }
var customMirror: Mirror {
lock.lock()
defer { lock.unlock() }
let children: [Mirror.Child] = [
("downstream", downstream),
("status", status)
]
return Mirror(self, children: children)
return Mirror(self, children: EmptyCollection())
}
var playgroundDescription: Any { return description }
Sources/OpenCombine/Publishers/Publishers.Last.swift
+61 -12
View File
@@ -7,33 +7,82 @@
extension Publisher {
/// Only publishes the last element of a stream, after the stream finishes.
/// Publishes the last element of a stream, after the stream finishes.
///
/// Use `last()` when you need to emit only the last element from an upstream
/// publisher.
///
/// In the example below, the range publisher only emits the last element from
/// the sequence publisher, `10`, then finishes normally.
///
/// let numbers = (-10...10)
/// cancellable = numbers.publisher
/// .last()
/// .sink { print("\($0)") }
///
/// // Prints: "10"
///
/// - Returns: A publisher that only publishes the last element of a stream.
public func last() -> Publishers.Last<Self> {
return .init(upstream: self)
}
/// Only publishes the last element of a stream that satisfies a predicate closure,
/// after the stream finishes.
/// Publishes the last element of a stream that satisfies a predicate closure,
/// after upstream finishes.
///
/// Use `last(where:)` when you need to republish only the last element of a stream
/// that satisfies a closure you specify.
///
/// In the example below, a range publisher emits the last element that satisfies
/// the closures criteria, then finishes normally:
///
/// let numbers = (-10...10)
/// cancellable = numbers.publisher
/// .last { $0 < 6 }
/// .sink { print("\($0)") }
///
/// // Prints: "5"
///
/// - Parameter predicate: A closure that takes an element as its parameter and
/// returns a Boolean value indicating whether to publish the element.
/// - Returns: A publisher that only publishes the last element satisfying
/// the given predicate.
/// returns a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the last element satisfying the given
/// predicate.
public func last(
where predicate: @escaping (Output) -> Bool
) -> Publishers.LastWhere<Self> {
return .init(upstream: self, predicate: predicate)
}
/// Only publishes the last element of a stream that satisfies an error-throwing
/// predicate closure, after the stream finishes.
/// Publishes the last element of a stream that satisfies an error-throwing predicate
/// closure, after the stream finishes.
///
/// Use `tryLast(where:)` when you need to republish the last element that satisfies
/// an error-throwing closure you specify. If the predicate closure throws an error,
/// the publisher fails.
///
/// In the example below, a publisher emits the last element that satisfies
/// the error-throwing closure, then finishes normally:
///
/// struct RangeError: Error {}
///
/// let numbers = [-62, 1, 6, 10, 9, 22, 41, -1, 5]
/// cancellable = numbers.publisher
/// .tryLast {
/// guard 0 != 0 else {throw RangeError()}
/// return true
/// }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)", terminator: " ") },
/// receiveValue: { print ("\($0)", terminator: " ") }
/// )
/// // Prints: "5 completion: finished"
/// // If instead the numbers array had contained a `0`, the `tryLast` operator
/// // would terminate publishing with a RangeError."
///
/// If the predicate closure throws, the publisher fails with the thrown error.
/// - Parameter predicate: A closure that takes an element as its parameter and
/// returns a Boolean value indicating whether to publish the element.
/// - Returns: A publisher that only publishes the last element satisfying
/// the given predicate.
/// returns a Boolean value that indicates whether to publish the element.
/// - Returns: A publisher that only publishes the last element satisfying the given
/// predicate.
public func tryLast(
where predicate: @escaping (Output) throws -> Bool
) -> Publishers.TryLastWhere<Self> {
Sources/OpenCombine/Publishers/Publishers.MakeConnectable.swift
+40
View File
@@ -9,6 +9,34 @@ extension Publisher where Failure == Never {
/// Creates a connectable wrapper around the publisher.
///
/// In the following example, `makeConnectable()` wraps its upstream publisher
/// (an instance of `Publishers.Share`) with a `ConnectablePublisher`. Without this,
/// the first sink subscriber would receive all the elements from the sequence
/// publisher and cause it to complete before the second subscriber attaches.
/// By making the publisher connectable, the publisher doesnt produce any elements
/// until after the `connect()` call.
///
/// let subject = Just<String>("Sent")
/// let pub = subject
/// .share()
/// .makeConnectable()
/// cancellable1 = pub.sink { print ("Stream 1 received: \($0)") }
///
/// // For example purposes, use DispatchQueue to add a second subscriber
/// // a second later, and then connect to the publisher a second after that.
/// DispatchQueue.main.asyncAfter(deadline: .now() + 1) {
/// self.cancellable2 = pub.sink { print ("Stream 2 received: \($0)") }
/// }
/// DispatchQueue.main.asyncAfter(deadline: .now() + 2) {
/// self.connectable = pub.connect()
/// }
/// // Prints:
/// // Stream 2 received: Sent
/// // Stream 1 received: Sent
///
/// > Note: The `connect()` operator returns a `Cancellable` instance that you must
/// retain. You can also use this instance to cancel publishing.
///
/// - Returns: A `ConnectablePublisher` wrapping this publisher.
public func makeConnectable() -> Publishers.MakeConnectable<Self> {
return .init(upstream: self)
@@ -17,6 +45,15 @@ extension Publisher where Failure == Never {
extension Publishers {
/// A publisher that provides explicit connectability to another publisher.
///
/// `Publishers.MakeConnectable` is a `ConnectablePublisher`, which allows you to
/// perform configuration before publishing any elements. Call `connect()` on this
/// publisher when you want to attach to its upstream publisher and start producing
/// elements.
///
/// Use the `makeConnectable()` operator to wrap an upstream publisher with
/// an instance of this publisher.
public struct MakeConnectable<Upstream: Publisher>: ConnectablePublisher {
public typealias Output = Upstream.Output
@@ -25,6 +62,9 @@ extension Publishers {
private let inner: Multicast<Upstream, PassthroughSubject<Output, Failure>>
/// Creates a connectable publisher, attached to the provide upstream publisher.
///
/// - Parameter upstream: The publisher from which to receive elements.
public init(upstream: Upstream) {
inner = upstream.multicast(subject: .init())
}
Sources/OpenCombine/Publishers/Publishers.Map.swift
+87 -12
View File
@@ -9,6 +9,30 @@ extension Publisher {
/// Transforms all elements from the upstream publisher with a provided closure.
///
/// OpenCombines `map(_:)` operator performs a function similar to that of `map(_:)`
/// in the Swift standard library: it uses a closure to transform each element it
/// receives from the upstream publisher. You use `map(_:)` to transform from one kind
/// of element to another.
///
/// The following example uses an array of numbers as the source for a collection
/// based publisher. A `map(_:)` operator consumes each integer from the publisher and
/// uses a dictionary to transform it from its Arabic numeral to a Roman equivalent,
/// as a `String`.
/// If the `map(_:)`s closure fails to look up a Roman numeral, it returns the string
/// `(unknown)`.
///
/// let numbers = [5, 4, 3, 2, 1, 0]
/// let romanNumeralDict: [Int : String] =
/// [1:"I", 2:"II", 3:"III", 4:"IV", 5:"V"]
/// cancellable = numbers.publisher
/// .map { romanNumeralDict[$0] ?? "(unknown)" }
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "V IV III II I (unknown)"
///
/// If your closure can throw an error, use OpenCombines `tryMap(_:)` operator
/// instead.
///
/// - Parameter transform: A closure that takes one element as its parameter and
/// returns a new element.
/// - Returns: A publisher that uses the provided closure to map elements from
@@ -19,14 +43,47 @@ extension Publisher {
return Publishers.Map(upstream: self, transform: transform)
}
/// Transforms all elements from the upstream publisher with a provided
/// error-throwing closure.
/// Transforms all elements from the upstream publisher with a provided error-throwing
/// closure.
///
/// If the `transform` closure throws an error, the publisher fails with the thrown
/// error.
/// OpenCombines `tryMap(_:)` operator performs a function similar to that of
/// `map(_:)` in the Swift standard library: it uses a closure to transform each
/// element it receives from the upstream publisher. You use `tryMap(_:)` to transform
/// from one kind of element to another, and to terminate publishing when the maps
/// closure throws an error.
///
/// The following example uses an array of numbers as the source for a collection
/// based publisher. A `tryMap(_:)` operator consumes each integer from the publisher
/// and uses a dictionary to transform it from its Arabic numeral to a Roman
/// equivalent, as a `String`.
/// If the `tryMap(_:)`s closure fails to look up a Roman numeral, it throws
/// an error. The `tryMap(_:)` operator catches this error and terminates publishing,
/// sending a `Subscribers.Completion.failure(_:)` that wraps the error.
///
/// struct ParseError: Error {}
/// func romanNumeral(from:Int) throws -> String {
/// let romanNumeralDict: [Int : String] =
/// [1:"I", 2:"II", 3:"III", 4:"IV", 5:"V"]
/// guard let numeral = romanNumeralDict[from] else {
/// throw ParseError()
/// }
/// return numeral
/// }
/// let numbers = [5, 4, 3, 2, 1, 0]
/// cancellable = numbers.publisher
/// .tryMap { try romanNumeral(from: $0) }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") },
/// receiveValue: { print ("\($0)", terminator: " ") }
/// )
///
/// // Prints: "V IV III II I completion: failure(ParseError())"
///
/// If your closure doesnt throw, use `map(_:)` instead.
///
/// - Parameter transform: A closure that takes one element as its parameter and
/// returns a new element.
/// returns a new element. If the closure throws an error, the publisher fails with
/// the thrown error.
/// - Returns: A publisher that uses the provided closure to map elements from
/// the upstream publisher to new elements that it then publishes.
public func tryMap<Result>(
@@ -34,6 +91,30 @@ extension Publisher {
) -> Publishers.TryMap<Self, Result> {
return Publishers.TryMap(upstream: self, transform: transform)
}
/// Replaces `nil` elements in the stream with the provided element.
///
/// The `replaceNil(with:)` operator enables replacement of `nil` values in a stream
/// with a substitute value. In the example below, a collection publisher contains
/// a `nil` value. The `replaceNil(with:)` operator replaces this with `0.0`.
///
/// let numbers: [Double?] = [1.0, 2.0, nil, 3.0]
/// numbers.publisher
/// .replaceNil(with: 0.0)
/// .sink { print("\($0)", terminator: " ") }
///
/// // Prints: "Optional(1.0) Optional(2.0) Optional(0.0) Optional(3.0)"
///
/// - Parameter output: The element to use when replacing `nil`.
/// - Returns: A publisher that replaces `nil` elements from the upstream publisher
/// with the provided element.
public func replaceNil<ElementOfResult>(
with output: ElementOfResult
) -> Publishers.Map<Self, ElementOfResult>
where Output == ElementOfResult?
{
return Publishers.Map(upstream: self) { $0 ?? output }
}
}
extension Publishers {
@@ -218,13 +299,7 @@ extension Publishers.TryMap {
return try downstream.receive(map(input))
} catch {
lock.lock()
let subscription: Subscription?
switch status {
case let .subscribed(upstreamSubscription):
subscription = upstreamSubscription
case .awaitingSubscription, .terminal:
subscription = nil
}
let subscription = status.subscription
status = .terminal
lock.unlock()
subscription?.cancel()
Sources/OpenCombine/Publishers/Publishers.MapError.swift
+37 -6
View File
@@ -45,13 +45,44 @@ extension Publisher {
/// Converts any failure from the upstream publisher into a new error.
///
/// Until the upstream publisher finishes normally or fails with an error,
/// the returned publisher republishes all the elements it receives.
/// Use the `mapError(_:)` operator when you need to replace one error type with
/// another, or where a downstream operator needs the error types of its inputs to
/// match.
///
/// - Parameter transform: A closure that takes the upstream failure as a
/// parameter and returns a new error for the publisher to terminate with.
/// - Returns: A publisher that replaces any upstream failure with a
/// new error produced by the `transform` closure.
/// The following example uses a `tryMap(_:)` operator to divide `1` by each element
/// produced by a sequence publisher. When the publisher produces a `0`,
/// the `tryMap(_:)` fails with a `DivisionByZeroError`. The `mapError(_:)` operator
/// converts this into a `MyGenericError`.
///
/// struct DivisionByZeroError: Error {}
/// struct MyGenericError: Error { var wrappedError: Error }
///
/// func myDivide(_ dividend: Double, _ divisor: Double) throws -> Double {
/// guard divisor != 0 else { throw DivisionByZeroError() }
/// return dividend / divisor
/// }
///
/// let divisors: [Double] = [5, 4, 3, 2, 1, 0]
/// divisors.publisher
/// .tryMap { try myDivide(1, $0) }
/// .mapError { MyGenericError(wrappedError: $0) }
/// .sink(
/// receiveCompletion: { print ("completion: \($0)") ,
/// receiveValue: { print ("value: \($0)") }
/// )
///
/// // Prints:
/// // value: 0.2
/// // value: 0.25
/// // value: 0.3333333333333333
/// // value: 0.5
/// // value: 1.0
/// // completion: failure(MyGenericError(wrappedError: DivisionByZeroError()))"
///
/// - Parameter transform: A closure that takes the upstream failure as a parameter
/// and returns a new error for the publisher to terminate with.
/// - Returns: A publisher that replaces any upstream failure with a new error
/// produced by the `transform` closure.
public func mapError<NewFailure: Error>(
_ transform: @escaping (Failure) -> NewFailure
) -> Publishers.MapError<Self, NewFailure>
Sources/OpenCombine/Publishers/Publishers.MapKeyPath.swift.gyb
+62 -8
View File
@@ -6,12 +6,18 @@ ${template_header}
// Created by Sergej Jaskiewicz on 03/10/2019.
//
// swiftlint:disable large_tuple
%{
from gyb_opencombine_support import (
suffix_variadic,
list_with_suffix_variadic
)
import random
RNG = random.Random(0)
instantiations = [(1, '', ''),
(2, 'two', 'second '),
(3, 'three', 'third ')]
@@ -41,18 +47,66 @@ extension Publisher {
%
% publisher_name = make_publisher_name(arity)
%
% doc_cardinal = 'a keyt path' if arity == 1 else cardinal + ' key paths'
/// Returns a publisher that publishes the values of ${doc_cardinal} as a tuple.
% doc_cardinal = 'a key path' if arity == 1 else cardinal + ' key paths'
%
% doc_comment_suffix = 'value of the key path' \
% if arity == 1 else 'values of {} key paths as a tuple'.format(cardinal)
%
% doc_output_values = 'the value of this `Int`' \
% if arity == 1 else 'these {} values (as an `({})` tuple)' \
% .format(cardinal, ', '.join(['Int'] * arity))
%
% example_dice_roll_properties = ['die'] \
% if arity == 1 else ['die{}'.format(i + 1) for i in range(arity)]
% enumerated_example_dice_roll_properties = '`die` member' \
% if arity == 1 else ('`die1` and `die2`' if arity == 2 else \
% ''.join(['`{}`, '.format(s) for s in example_dice_roll_properties[:-1]]) + \
% 'and `{}`'.format(example_dice_roll_properties[-1])) + ' members'
%
% dice_roll_init = ',\n /// ' \
% .join([s + ': Int.random(in: 1...6)' for s in example_dice_roll_properties])
/// Publishes the ${doc_comment_suffix}.
///
/// In the following example, the `map(${'_:' * arity})` operator uses the Swift
/// key path syntax to access the ${enumerated_example_dice_roll_properties}
/// of the `DiceRoll` structure published by the `Just` publisher.
///
/// The downstream sink subscriber receives only
/// ${doc_output_values},
/// not the entire `DiceRoll`.
///
/// struct DiceRoll {
% for prop in example_dice_roll_properties:
/// let ${prop}: Int
% end
/// }
///
/// cancellable = Just(DiceRoll(${dice_roll_init}))
/// .map(${', '.join(['\.' + s for s in example_dice_roll_properties])})
% if arity == 1:
/// .sink {
/// print ("Rolled: \($0)")
/// }
% else:
% closure_args = ['values.{}'.format(i) for i in range(arity)]
/// .sink { values in
/// print("""
/// Rolled: ${', '.join(['\\({})'.format(s) for s in closure_args])} \
/// (total \(${' + '.join(closure_args)}))
/// """)
/// }
% end
% random_numbers = [RNG.randint(1, 6) for _ in range(arity)]
% random_numbers_printed = ', '.join([str(i) for i in random_numbers]) + \
% (' (or some other random value)' if arity == 1 \
% else ' (total: {})" (or other random values)'.format(sum(random_numbers)))
/// // Prints "Rolled: ${random_numbers_printed}.
///
/// - Parameters:
% for i in range(arity):
% ordinal = 'another ' if i == 1 else 'a ' + instantiations[i][2]
/// - ${key_path_var(i, arity)}: The key path of ${ordinal}property on `Output`
% ordinal = 'another ' if i == 1 and arity < 3 else 'a ' + instantiations[i][2]
/// - ${key_path_var(i, arity)}: The key path of ${ordinal}property on `Output`.
% end
%
% doc_comment_suffix = 'value of the key path' \
% if arity == 1 else 'values of {} key paths as a tuple'.format(cardinal)
/// - Returns: A publisher that publishes the ${doc_comment_suffix}.
public func map<${cs_result_types}>(
${method_args_joined}
Sources/OpenCombine/Publishers/Publishers.MeasureInterval.swift
+47 -26
View File
@@ -10,11 +10,30 @@ extension Publisher {
/// Measures and emits the time interval between events received from an upstream
/// publisher.
///
/// The output type of the returned scheduler is the time interval of the provided
/// Use `measureInterval(using:options:)` to measure the time between events delivered
/// from an upstream publisher.
///
/// In the example below, a 1-second `Timer` is used as the data source for an event
/// publisher; the `measureInterval(using:options:)` operator reports the elapsed time
/// between the reception of events on the main run loop:
///
/// cancellable = Timer.publish(every: 1, on: .main, in: .default)
/// .autoconnect()
/// .measureInterval(using: RunLoop.main)
/// .sink { print("\($0)", terminator: "\n") }
///
/// // Prints:
/// // Stride(magnitude: 1.0013610124588013)
/// // Stride(magnitude: 0.9992760419845581)
///
/// The output type of the returned publisher is the time interval of the provided
/// scheduler.
///
/// This operator uses the provided schedulers `now` property to measure intervals
/// between events.
///
/// - Parameters:
/// - scheduler: The scheduler on which to deliver elements.
/// - scheduler: A scheduler to use for tracking the timing of events.
/// - options: Options that customize the delivery of elements.
/// - Returns: A publisher that emits elements representing the time interval between
/// the elements it receives.
@@ -39,9 +58,15 @@ extension Publishers {
/// The publisher from which this publisher receives elements.
public let upstream: Upstream
/// The scheduler on which to deliver elements.
/// The scheduler used for tracking the timing of events.
public let scheduler: Context
/// Creates a publisher that measures and emits the time interval between events
/// received from an upstream publisher.
///
/// - Parameters:
/// - upstream: The publisher from which this publisher receives elements.
/// - scheduler: A scheduler to use for tracking the timing of events.
public init(upstream: Upstream, scheduler: Context) {
self.upstream = upstream
self.scheduler = scheduler
@@ -51,7 +76,7 @@ extension Publishers {
where Upstream.Failure == Downstream.Failure,
Downstream.Input == Context.SchedulerTimeType.Stride
{
upstream.subscribe(Inner(self, downstream: subscriber))
upstream.subscribe(Inner(scheduler: scheduler, downstream: subscriber))
}
}
}
@@ -66,27 +91,22 @@ extension Publishers.MeasureInterval {
where Downstream.Input == Context.SchedulerTimeType.Stride,
Downstream.Failure == Upstream.Failure
{
// NOTE: This class has been audited for thread safety
typealias Input = Upstream.Output
typealias Failure = Upstream.Failure
typealias MeasureInterval = Publishers.MeasureInterval<Upstream, Context>
private enum State {
case ready(MeasureInterval, Downstream)
case subscribed(MeasureInterval, Downstream, Subscription)
case terminal
}
private let lock = UnfairLock.allocate()
private var state: State
private let downstream: Downstream
private let scheduler: Context
private var state = SubscriptionStatus.awaitingSubscription
private var last: Context.SchedulerTimeType?
init(_ measureInterval: MeasureInterval, downstream: Downstream) {
state = .ready(measureInterval, downstream)
init(scheduler: Context, downstream: Downstream) {
self.downstream = downstream
self.scheduler = scheduler
}
deinit {
@@ -95,25 +115,26 @@ extension Publishers.MeasureInterval {
func receive(subscription: Subscription) {
lock.lock()
guard case let .ready(measureInterval, downstream) = state else {
guard case .awaitingSubscription = state else {
lock.unlock()
subscription.cancel()
return
}
state = .subscribed(measureInterval, downstream, subscription)
last = measureInterval.scheduler.now
state = .subscribed(subscription)
last = scheduler.now
lock.unlock()
downstream.receive(subscription: self)
}
func receive(_: Input) -> Subscribers.Demand {
lock.lock()
guard case let .subscribed(measureInterval, downstream, subscription) = state,
let previousTime = last else {
guard case let .subscribed(subscription) = state,
let previousTime = last else
{
lock.unlock()
return .none
}
let now = measureInterval.scheduler.now
let now = scheduler.now
last = now
lock.unlock()
let newDemand = downstream.receive(previousTime.distance(to: now))
@@ -125,7 +146,7 @@ extension Publishers.MeasureInterval {
func receive(completion: Subscribers.Completion<Failure>) {
lock.lock()
guard case let .subscribed(_, downstream, _) = state else {
guard case .subscribed = state else {
lock.unlock()
return
}
@@ -137,7 +158,7 @@ extension Publishers.MeasureInterval {
func request(_ demand: Subscribers.Demand) {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
@@ -147,7 +168,7 @@ extension Publishers.MeasureInterval {
func cancel() {
lock.lock()
guard case let .subscribed(_, _, subscription) = state else {
guard case let .subscribed(subscription) = state else {
lock.unlock()
return
}
Sources/OpenCombine/Publishers/Publishers.Multicast.swift
+81 -13
View File
@@ -11,10 +11,45 @@ extension Publisher {
///
/// Use a multicast publisher when you have multiple downstream subscribers, but you
/// want upstream publishers to only process one `receive(_:)` call per event.
/// In contrast with `multicast(subject:)`, this method produces a publisher that
/// creates a separate Subject for each subscriber.
/// This is useful when upstream publishers are doing expensive work you dont want
/// to duplicate, like performing network requests.
///
/// - Parameter createSubject: A closure to create a new Subject each time
/// In contrast with `multicast(subject:)`, this method produces a publisher that
/// creates a separate `Subject` for each subscriber.
///
/// The following example uses a sequence publisher as a counter to publish three
/// random numbers, generated by a `map(_:)` operator.
/// It uses a `multicast(_:)` operator whose closure creates a `PassthroughSubject`
/// to share the same random number to each of two subscribers. Because the multicast
/// publisher is a `ConnectablePublisher`, publishing only begins after a call to
/// `connect()`.
///
/// let pub = ["First", "Second", "Third"].publisher
/// .map( { return ($0, Int.random(in: 0...100)) } )
/// .print("Random")
/// .multicast { PassthroughSubject<(String, Int), Never>() }
///
/// cancellable1 = pub
/// .sink { print ("Stream 1 received: \($0)")}
/// cancellable2 = pub
/// .sink { print ("Stream 2 received: \($0)")}
/// pub.connect()
///
/// // Prints:
/// // Random: receive value: (("First", 9))
/// // Stream 2 received: ("First", 9)
/// // Stream 1 received: ("First", 9)
/// // Random: receive value: (("Second", 46))
/// // Stream 2 received: ("Second", 46)
/// // Stream 1 received: ("Second", 46)
/// // Random: receive value: (("Third", 26))
/// // Stream 2 received: ("Third", 26)
/// // Stream 1 received: ("Third", 26)
///
/// In this example, the output shows that the `print(_:to:)` operator receives each
/// random value only one time, and then sends the value to both subscribers.
///
/// - Parameter createSubject: A closure to create a new `Subject` each time
/// a subscriber attaches to the multicast publisher.
public func multicast<SubjectType: Subject>(
_ createSubject: @escaping () -> SubjectType
@@ -28,8 +63,42 @@ extension Publisher {
///
/// Use a multicast publisher when you have multiple downstream subscribers, but you
/// want upstream publishers to only process one `receive(_:)` call per event.
/// In contrast with `multicast(_:)`, this method produces a publisher shares
/// the provided Subject among all the downstream subscribers.
/// This is useful when upstream publishers are doing expensive work you dont want
/// to duplicate, like performing network requests.
///
/// In contrast with `multicast(_:)`, this method produces a publisher that shares
/// the provided `Subject` among all the downstream subscribers.
///
/// The following example uses a sequence publisher as a counter to publish three
/// random numbers, generated by a `map(_:)` operator.
/// It uses a `multicast(subject:)` operator with a `PassthroughSubject` to share
/// the same random number to each of two subscribers. Because the multicast publisher
/// is a `ConnectablePublisher`, publishing only begins after a call to `connect()`.
///
/// let pub = ["First", "Second", "Third"].publisher
/// .map( { return ($0, Int.random(in: 0...100)) } )
/// .print("Random")
/// .multicast(subject: PassthroughSubject<(String, Int), Never>())
///
/// cancellable1 = pub
/// .sink { print ("Stream 1 received: \($0)")}
/// cancellable2 = pub
/// .sink { print ("Stream 2 received: \($0)")}
/// pub.connect()
///
/// // Prints:
/// // Random: receive value: (("First", 78))
/// // Stream 2 received: ("First", 78)
/// // Stream 1 received: ("First", 78)
/// // Random: receive value: (("Second", 98))
/// // Stream 2 received: ("Second", 98)
/// // Stream 1 received: ("Second", 98)
/// // Random: receive value: (("Third", 61))
/// // Stream 2 received: ("Third", 61)
/// // Stream 1 received: ("Third", 61)
///
/// In this example, the output shows that the `print(_:to:)` operator receives each
/// random value only one time, and then sends the value to both subscribers.
///
/// - Parameter subject: A subject to deliver elements to downstream subscribers.
public func multicast<SubjectType: Subject>(
@@ -44,18 +113,19 @@ extension Publisher {
extension Publishers {
/// A publisher that uses a subject to deliver elements to multiple subscribers.
///
/// Use a multicast publisher when you have multiple downstream subscribers, but you
/// want upstream publishers to only process one `receive(_:)` call per event.
public final class Multicast<Upstream: Publisher, SubjectType: Subject>
: ConnectablePublisher
where Upstream.Failure == SubjectType.Failure,
Upstream.Output == SubjectType.Output
{
// NOTE: This class has been audited for thread safety
public typealias Output = Upstream.Output
public typealias Failure = Upstream.Failure
/// The publisher from which this publisher receives elements.
/// The publisher that this publisher receives elements from.
public let upstream: Upstream
/// A closure to create a new Subject each time a subscriber attaches
@@ -79,12 +149,10 @@ extension Publishers {
return subject
}
/// Creates a multicast publisher that applies a closure to create a subject
/// that delivers elements to subscribers.
/// Creates a multicast publisher that applies a closure to create a subject that
/// delivers elements to subscribers.
///
/// - Parameter upstream: The publisher from which this publisher receives
/// elements.
/// - Parameter createSubject: A closure to create a new Subject each time
/// - Parameter createSubject: A closure that returns a `Subject` each time
/// a subscriber attaches to the multicast publisher.
public init(upstream: Upstream, createSubject: @escaping () -> SubjectType) {
self.upstream = upstream

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