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Topology5 organises the products in each room, evaluating their interrelationship as a hierarchical tree. It presents a list of '''Rooms''' each of which presents lists of '''Roots''' and '''Sources'''. A Root is defined as a product whose outputs are '''not''' connected to the inputs of any other product. In essence a Root is the main product in the Room whose outputs are connected to the speakers and typically, when configured correctly, there would only be one Root in a Room.
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Topology5 organises the products in each room, evaluating their interrelationship as a hierarchical tree. It presents a list of '''Rooms''' each of which presents lists of '''Roots''' and '''Sources'''. A Root is defined as a product whose outputs are '''not''' connected to the inputs of any other product. In essence a Root is the main product in the Room whose outputs are connected to the speakers and typically, once configured correctly, each '''Room''' will only contain one '''Root'''.
===Topology5===
===Topology5===

Revision as of 14:30, 19 February 2015

Contents

ohTopology

Overview

ohTopology is a software stack which provides a means of controlling devices, on a local network, via their UPnP service actions. Devices are grouped based on their Room names and presented as a tree structure based on their interconnectivity. It consists of a number of distinct layers. Each layer focuses on exposing specific properties and actions that are intended to be utilised by the layers above. Clients of ohTopology need only interface directly with the highest layer of the stack to gain access to the properties and actions exposed by the lower layers.

Watchable System

Overview

Actions exposed by a layer can be called directly, but property values can only be monitored through a callback notification system (observer pattern). Properties are exposed as "watchable" values that may be monitored by "watcher" clients. When a (watchable) property changes, all of its watchers are automatically notified of the change and the property's new value. Watchers can be added and removed at any time. The IWatchable interface is used to expose single value properties and the IWatchableUnordered and IWatchableOrdered interfaces are used for multivalue property lists. Property client objects must conform to the appropriate Iwatchable/IWatchableUnordered/IWatchableOrdered interface for the property that they wish to observe.

Watchable Thread

Although ohTopology is designed to run on multithreaded platforms, actions are executed in a single thread through the use of a thread scheduler class, WatchableThread. Enforcing single threaded execution removes the burden of having to manage thread safety, simplifies debugging and reduces the risk of deadlock. The WatchableThread class provides three methods; Execute, Schedule and Assert.

Schedule Method

Schedule provides a mechanism for asynchronous callback. The specified callback is placed in a queue (FIFO) to be run on the watchable thread, in turn, at some point in the future. Schedule takes a functor, for the callback method, and a generic void* argument to be passed to the callback.

Execute Method

Execute provides a mechanism for synchronous callback. If called from the watchable thread it executes the callback immediately. Otherwise it schedules the callback, for execution on the watchable thread. In either case, it blocks until the callback has completed. Execute takes a functor for the callback method and a generic void* argument to be passed to the callback.

Assert Method

Assert provides a way of checking if the current thread is the watchable thread.

Topology1

Overview

Topology1

Topology1 collects a list of devices (with Product Service) from Network and adds itself as a watcher of this list. When a device is added to the list a ProxyProduct (proxy to device's Product service) is created and added to the Topology1 Products list. This list is exposed, for consumption by Topology2, as an IWatchableUnordered.

Topology2

Overview

Topology2 maintains a list of all existing products. It presents a list of products (Groups) each of which present a list of their sources and the most pertinent properties and actions provided by their Product Service.

Topology2

Topology2 watches Topology1::Products and updates Topology2Group list whenever a ProxyProduct is added/removed from Topology1::Products

Topology2Source

Topology2Group

Topology3

Overview

Topology3 maintains a list of all existing products. It presents a list of products (Groups) each of which present a list of their sources and the most pertinent properties and actions provided by their Product Service.

Topology3

Topology3 watches Topology2::Groups and updates Topology3Group list whenever a Topology2Group is added/removed from Topology2::Groups

Topology3Group

Receiver Watcher

Sender Watcher

Topology4

Overview

Topology4 organises all existing products into Rooms based on their RoomName property. It presents a list of Rooms each of which presents a list of products.

Topology4

Topology4 watches Topology3::Groups and updates Topology4Room list whenever there is a change to the Room property of any Topology3Group. The Room property of each Topology3Group is monitored by a dedicated Topology4GroupWatcher.

Topology4Room

Topology4GroupWatcher

Updates Topology4 upon Room property change of Topology3Group.

Topology5

Overview

Topology5 organises the products (Groups) in each room, evaluating their interrelationship as a hierarchical tree. Each Room's Group list is filtered to remove all Child groups, and a super list of all sources of all groups in each room is maintained that is filtered to remove any Parent sources. A Child group is defined as one whose outputs are connected to the inputs of another group. A Parent source is defined as one whose input is fed from the outputs of another (Child) group.


Topology5 organises the products in each room, evaluating their interrelationship as a hierarchical tree. It presents a list of Rooms each of which presents lists of Roots and Sources. A Root is defined as a product whose outputs are not connected to the inputs of any other product. In essence a Root is the main product in the Room whose outputs are connected to the speakers and typically, once configured correctly, each Room will only contain one Root.

Topology5

Topology5 watches Topology4::Rooms, updating its Topology5Room list whenever a Topology4Room is added/removed.

Topology5Room

Topology5Room watches Topology4Room::Groups updating Topology3Group list whenever a Topology3Group is added/removed. The Standby, Name and Sources properties of each Topology3Group are then watched for changes. A dedicated Topology5GroupWatcher is employed to monitor Name and Sources of each group. Although the Standby state of each group is boolean, Topology5Room exposes a tristate Standby property. This is to accommodate a third state "mixed" when there is an inconsistent Standby state across all groups in the room. The Topology3Group list is used to maintain a corresponding Topology5Group list, a subset of which is exposed as a Roots list. A Root (ITopology5Root) is defined as a Topology5Group that does not have a Parent group. A super list of all Sources of every Root in the Room is exposed as Sources.

Topology5Group

Topology5Source

Topology5GroupWatcher

Monitors the two properties, Name and Sources, of Topology3Group, updating (CreateTree) Topology5Room when any poperty change occurs.


Services

Overview

Service

ServicePlaylist

ServiceRadio

ServiceSender

ServiceReceiver

ServiceVolume

ServiceInfo

ServiceProduct