node_modules/rxjs/_esm5/scheduler/VirtualTimeScheduler.js - nifi-fds - Git at Google

 /** PURE_IMPORTS_START ._AsyncAction,._AsyncScheduler PURE_IMPORTS_END */
 var __extends = (this && this.__extends) || function (d, b) {
     for (var p in b)
         if (b.hasOwnProperty(p))
             d[p] = b[p];
     function __() { this.constructor = d; }
     d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __());
 };
 import { AsyncAction } from './AsyncAction';
 import { AsyncScheduler } from './AsyncScheduler';
 export var VirtualTimeScheduler = /*@__PURE__*/ (/*@__PURE__*/ function (_super) {
     __extends(VirtualTimeScheduler, _super);
     function VirtualTimeScheduler(SchedulerAction, maxFrames) {
         var _this = this;
         if (SchedulerAction === void 0) {
             SchedulerAction = VirtualAction;
         }
         if (maxFrames === void 0) {
             maxFrames = Number.POSITIVE_INFINITY;
         }
         _super.call(this, SchedulerAction, function () { return _this.frame; });
         this.maxFrames = maxFrames;
         this.frame = 0;
         this.index = -1;
     }
     /**
      * Prompt the Scheduler to execute all of its queued actions, therefore
      * clearing its queue.
      * @return {void}
      */
     VirtualTimeScheduler.prototype.flush = function () {
         var _a = this, actions = _a.actions, maxFrames = _a.maxFrames;
         var error, action;
         while ((action = actions.shift()) && (this.frame = action.delay) <= maxFrames) {
             if (error = action.execute(action.state, action.delay)) {
                 break;
             }
         }
         if (error) {
             while (action = actions.shift()) {
                 action.unsubscribe();
             }
             throw error;
         }
     };
     VirtualTimeScheduler.frameTimeFactor = 10;
     return VirtualTimeScheduler;
 }(AsyncScheduler));
 /**
  * We need this JSDoc comment for affecting ESDoc.
  * @ignore
  * @extends {Ignored}
  */
 export var VirtualAction = /*@__PURE__*/ (/*@__PURE__*/ function (_super) {
     __extends(VirtualAction, _super);
     function VirtualAction(scheduler, work, index) {
         if (index === void 0) {
             index = scheduler.index += 1;
         }
         _super.call(this, scheduler, work);
         this.scheduler = scheduler;
         this.work = work;
         this.index = index;
         this.active = true;
         this.index = scheduler.index = index;
     }
     VirtualAction.prototype.schedule = function (state, delay) {
         if (delay === void 0) {
             delay = 0;
         }
         if (!this.id) {
             return _super.prototype.schedule.call(this, state, delay);
         }
         this.active = false;
         // If an action is rescheduled, we save allocations by mutating its state,
         // pushing it to the end of the scheduler queue, and recycling the action.
         // But since the VirtualTimeScheduler is used for testing, VirtualActions
         // must be immutable so they can be inspected later.
         var action = new VirtualAction(this.scheduler, this.work);
         this.add(action);
         return action.schedule(state, delay);
     };
     VirtualAction.prototype.requestAsyncId = function (scheduler, id, delay) {
         if (delay === void 0) {
             delay = 0;
         }
         this.delay = scheduler.frame + delay;
         var actions = scheduler.actions;
         actions.push(this);
         actions.sort(VirtualAction.sortActions);
         return true;
     };
     VirtualAction.prototype.recycleAsyncId = function (scheduler, id, delay) {
         if (delay === void 0) {
             delay = 0;
         }
         return undefined;
     };
     VirtualAction.prototype._execute = function (state, delay) {
         if (this.active === true) {
             return _super.prototype._execute.call(this, state, delay);
         }
     };
     VirtualAction.sortActions = function (a, b) {
         if (a.delay === b.delay) {
             if (a.index === b.index) {
                 return 0;
             }
             else if (a.index > b.index) {
                 return 1;
             }
             else {
                 return -1;
             }
         }
         else if (a.delay > b.delay) {
             return 1;
         }
         else {
             return -1;
         }
     };
     return VirtualAction;
 }(AsyncAction));
 //# sourceMappingURL=VirtualTimeScheduler.js.map
	/** PURE_IMPORTS_START ._AsyncAction,._AsyncScheduler PURE_IMPORTS_END */
	var __extends = (this && this.__extends) \|\| function (d, b) {
	for (var p in b)
	if (b.hasOwnProperty(p))
	d[p] = b[p];
	function __() { this.constructor = d; }
	d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __());
	};
	import { AsyncAction } from './AsyncAction';
	import { AsyncScheduler } from './AsyncScheduler';
	export var VirtualTimeScheduler = /@__PURE__/ (/@__PURE__/ function (_super) {
	__extends(VirtualTimeScheduler, _super);
	function VirtualTimeScheduler(SchedulerAction, maxFrames) {
	var _this = this;
	if (SchedulerAction === void 0) {
	SchedulerAction = VirtualAction;
	}
	if (maxFrames === void 0) {
	maxFrames = Number.POSITIVE_INFINITY;
	}
	_super.call(this, SchedulerAction, function () { return _this.frame; });
	this.maxFrames = maxFrames;
	this.frame = 0;
	this.index = -1;
	}
	/**
	* Prompt the Scheduler to execute all of its queued actions, therefore
	* clearing its queue.
	* @return {void}
	*/
	VirtualTimeScheduler.prototype.flush = function () {
	var _a = this, actions = _a.actions, maxFrames = _a.maxFrames;
	var error, action;
	while ((action = actions.shift()) && (this.frame = action.delay) <= maxFrames) {
	if (error = action.execute(action.state, action.delay)) {
	break;
	}
	}
	if (error) {
	while (action = actions.shift()) {
	action.unsubscribe();
	}
	throw error;
	}
	};
	VirtualTimeScheduler.frameTimeFactor = 10;
	return VirtualTimeScheduler;
	}(AsyncScheduler));
	/**
	* We need this JSDoc comment for affecting ESDoc.
	* @ignore
	* @extends {Ignored}
	*/
	export var VirtualAction = /@__PURE__/ (/@__PURE__/ function (_super) {
	__extends(VirtualAction, _super);
	function VirtualAction(scheduler, work, index) {
	if (index === void 0) {
	index = scheduler.index += 1;
	}
	_super.call(this, scheduler, work);
	this.scheduler = scheduler;
	this.work = work;
	this.index = index;
	this.active = true;
	this.index = scheduler.index = index;
	}
	VirtualAction.prototype.schedule = function (state, delay) {
	if (delay === void 0) {
	delay = 0;
	}
	if (!this.id) {
	return _super.prototype.schedule.call(this, state, delay);
	}
	this.active = false;
	// If an action is rescheduled, we save allocations by mutating its state,
	// pushing it to the end of the scheduler queue, and recycling the action.
	// But since the VirtualTimeScheduler is used for testing, VirtualActions
	// must be immutable so they can be inspected later.
	var action = new VirtualAction(this.scheduler, this.work);
	this.add(action);
	return action.schedule(state, delay);
	};
	VirtualAction.prototype.requestAsyncId = function (scheduler, id, delay) {
	if (delay === void 0) {
	delay = 0;
	}
	this.delay = scheduler.frame + delay;
	var actions = scheduler.actions;
	actions.push(this);
	actions.sort(VirtualAction.sortActions);
	return true;
	};
	VirtualAction.prototype.recycleAsyncId = function (scheduler, id, delay) {
	if (delay === void 0) {
	delay = 0;
	}
	return undefined;
	};
	VirtualAction.prototype._execute = function (state, delay) {
	if (this.active === true) {
	return _super.prototype._execute.call(this, state, delay);
	}
	};
	VirtualAction.sortActions = function (a, b) {
	if (a.delay === b.delay) {
	if (a.index === b.index) {
	return 0;
	}
	else if (a.index > b.index) {
	return 1;
	}
	else {
	return -1;
	}
	}
	else if (a.delay > b.delay) {
	return 1;
	}
	else {
	return -1;
	}
	};
	return VirtualAction;
	}(AsyncAction));
	//# sourceMappingURL=VirtualTimeScheduler.js.map