2018-02-08 09:11:52 +01:00
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//
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// AppDelegate+Scriptability.swift
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// Evergreen
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//
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// Created by Olof Hellman on 2/7/18.
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2018-03-05 04:01:58 +01:00
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// Copyright © 2018 Olof Hellman. All rights reserved.
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2018-02-08 09:11:52 +01:00
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//
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/*
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Note: strictly, the AppDelegate doesn't appear as part of the scripting model,
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so this file is rather unlike the other Object+Scriptability.swift files.
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However, the AppDelegate object is the de facto scripting accessor for some
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application elements and properties. For, example, the main window is accessed
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via the AppDelegate's MainWindowController, and the main window itself has
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selected feeds, selected articles and a current article. This file supplies the glue to access
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these scriptable objects, while being completely separate from the core AppDelegate code,
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*/
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import Foundation
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2018-07-24 03:29:08 +02:00
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import Articles
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2018-02-08 09:11:52 +01:00
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2018-02-11 10:20:30 +01:00
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protocol AppDelegateAppleEvents {
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func installAppleEventHandlers()
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func getURL(_ event: NSAppleEventDescriptor, _ withReplyEvent: NSAppleEventDescriptor)
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}
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2018-02-08 09:11:52 +01:00
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protocol ScriptingAppDelegate {
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var scriptingCurrentArticle: Article? {get}
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var scriptingSelectedArticles: [Article] {get}
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var scriptingMainWindowController:ScriptingMainWindowController? {get}
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}
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2018-02-11 10:20:30 +01:00
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extension AppDelegate : AppDelegateAppleEvents {
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// MARK: GetURL Apple Event
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func installAppleEventHandlers() {
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NSAppleEventManager.shared().setEventHandler(self, andSelector: #selector(AppDelegate.getURL(_:_:)), forEventClass: AEEventClass(kInternetEventClass), andEventID: AEEventID(kAEGetURL))
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}
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@objc func getURL(_ event: NSAppleEventDescriptor, _ withReplyEvent: NSAppleEventDescriptor) {
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guard let urlString = event.paramDescriptor(forKeyword: keyDirectObject)?.stringValue else {
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return
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}
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let normalizedURLString = urlString.rs_normalizedURL()
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if !normalizedURLString.rs_stringMayBeURL() {
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return
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}
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DispatchQueue.main.async {
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self.addFeed(normalizedURLString)
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}
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}
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}
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2018-02-20 09:26:46 +01:00
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class EvergreenCreateElementCommand : NSCreateCommand {
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override func performDefaultImplementation() -> Any? {
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let classDescription = self.createClassDescription
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if (classDescription.className == "feed") {
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return ScriptableFeed.handleCreateElement(command:self)
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2018-03-05 03:43:29 +01:00
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} else if (classDescription.className == "folder") {
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return ScriptableFolder.handleCreateElement(command:self)
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}
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return nil
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}
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}
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/*
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NSDeleteCommand is kind of an oddball AppleScript command in that the command dispatch
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goes to the container of the object(s) to be deleted, and the container needs to
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figure out what to delete. In the code below, 'receivers' is the container object(s)
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and keySpecifier is the thing to delete, relative to the container(s). Because there
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is ambiguity about whether specifiers are lists or single objects, the code switches
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based on which it is.
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*/
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class EvergreenDeleteCommand : NSDeleteCommand {
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/*
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delete(objectToDelete:, from container:)
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At this point in handling the command, we know what the container is.
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Here the code unravels the case of objectToDelete being a list or a single object,
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ultimately calling container.deleteElement(element) for each element to delete
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*/
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func delete(objectToDelete:Any, from container:ScriptingObjectContainer) {
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if let objectList = objectToDelete as? [Any] {
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for nthObject in objectList {
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self.delete(objectToDelete:nthObject, from:container)
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}
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} else if let element = objectToDelete as? ScriptingObject {
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container.deleteElement(element)
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}
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}
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/*
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delete(specifier:, from container:)
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At this point in handling the command, the container could be a list or a single object,
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and what to delete is still an unresolved NSScriptObjectSpecifier.
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Here the code unravels the case of container being a list or a single object. Once the
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container(s) is known, it is possible to resolve the keySpecifier based on that container.
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After resolving, we call delete(objectToDelete:, from container:) with the container and
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the resolved objects
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*/
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func delete(specifier:NSScriptObjectSpecifier, from container:Any) {
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if let containerList = container as? [Any] {
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for nthObject in containerList {
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self.delete(specifier:specifier, from:nthObject)
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}
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} else if let container = container as? ScriptingObjectContainer {
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if let resolvedObjects = specifier.objectsByEvaluating(withContainers:container) {
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self.delete(objectToDelete:resolvedObjects, from:container)
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}
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}
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}
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/*
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performDefaultImplementation()
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This is where handling the delete event starts. receiversSpecifier should be the container(s) of
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the item to be deleted. keySpecifier is the thing in that container(s) to be deleted
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The first step is to resolve the receiversSpecifier and then call delete(specifier:, from container:)
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*/
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override func performDefaultImplementation() -> Any? {
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if let receiversSpecifier = self.receiversSpecifier {
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if let receiverObjects = receiversSpecifier.objectsByEvaluatingSpecifier {
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self.delete(specifier:self.keySpecifier, from:receiverObjects)
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}
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2018-02-20 09:26:46 +01:00
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}
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return nil
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}
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}
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2018-02-11 10:20:30 +01:00
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class EvergreenExistsCommand : NSExistsCommand {
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2018-02-20 09:26:46 +01:00
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2018-02-11 10:20:30 +01:00
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// cocoa default behavior doesn't work here, because of cases where we define an object's property
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// to be another object type. e.g., 'permalink of the current article' parses as
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// <property> of <property> of <top level object>
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// cocoa would send the top level object (the app) a doesExist message for a nested property, and
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// it errors out because it doesn't know how to handle that
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// What we do instead is simply see if the defaultImplementation errors, and if it does, the object
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// must not exist. Otherwise, we return the result of the defaultImplementation
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// The wrinkle is that it is possible that the direct object is a list, so we need to
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// handle that case as well
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override func performDefaultImplementation() -> Any? {
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guard let result = super.performDefaultImplementation() else { return NSNumber(booleanLiteral:false) }
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return result
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}
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}
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2018-02-08 09:11:52 +01:00
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