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Component Diagram

Component Diagram. E. Haodudin Nurkifli Universitas Ahmad Dahlan Pertemuan. PLAN OF TALK. Pengenalan komponen Komponen dan diagram komponen di uml 2.0 Case study Elemen komponen Component view: black-box view dan white-box view Diagram Deployment. INTRODUCTION.

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Component Diagram

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  1. Component Diagram E. Haodudin Nurkifli Universitas Ahmad Dahlan Pertemuan

  2. PLAN OF TALK • Pengenalan komponen • Komponen dan diagram komponen di uml 2.0 • Case study • Elemen komponen • Component view: black-box view dan white-box view • Diagram Deployment

  3. INTRODUCTION • UML component diagrams : mendeskripsikan komponen software dan kebergantungannya dengan yang lain • Komponen merupakan unit otonom dalam sistem • Komponen dapat digunakan untuk mendefinisikan ukuran dan kompleksitas sistem S/W • komponen diagram UML memungkinkan untuk memodelkan komponen perangkat lunak tingkat tinggi, dan interface untuk komponen tersebut • Komponen dan subsistem dapat di-REUSED dan di-REPLACED • Terdapat Kebergantungan antara 2 elemen, jika terdapat perubahan pada 1 elemen bisa mempengaruhi lainnya. • Diagram komponen sering disebut sebagai “wiring diagrams” • Wiring komponen merepresentasikan komponen dan dependensi diantara komponen tersebut.

  4. INTRODUCTION An Uml diagram classification: • Static • Use case diagram, Class diagram • Dynamic • State diagram, Activity diagram, Sequence diagram, Collaboration diagram • Implementation • Component diagram, Deployment diagram UML components diagrams are • Implementation diagrams: menggambarkan elemen-elemen yang berbeda yang dibutuhkan untuk mengimplementasikan sistem

  5. INTRODUCTION Another classification: • Behavior diagrams • Jenis diagram yang menggambarkan perilaku suatu sistem Meliputi activity, state machine, dan use case diagrams, interaction diagrams • Interaction diagrams • Sebuah subset dari diagram perilaku yang menekankan interaksi objek. Meliputi collaboration, activity, sequence diagrams • Structure diagrams • Jenis diagram yang menggambarkan unsur-unsur spesifikasi yang terlepas dari waktu. Meliputi class, composite structure, component, deployment UML components diagrams are structurediagrams

  6. COMPONENT in UML 2.0 • Modular unit dengan antarmuka yang terdefinisi dengan baik yang dapat diganti dalam lingkungannya • Autonomous unit dalam sistem • Memiliki satu atau lebih antarmuka ‘provided’ dan ‘required’ • Internanya tersembunyi dan tidak dapat diakses • Komponen diencapsulasi • Dependensinya dirancang sedemikian rupa sehingga dapat menjadi seindependen mungkin

  7. CASE STUDY • Pengembangan aplikasi jajak pendapat siswa tentang program • Siswa dapat • Membaca • Menyisipkan • Mengupdate • Membuat data permanen mengenai program di jadwal • Seorang profesor hanya bisa melihat elaborasi statistik data • Aplikasi mahasiswa harus diinstal di klien pc (sw1, sw2) • Manajer aplikasi harus diinstal di klien pc (di kantor manajer) • Ada satu atau lebih server dengan DataBase dan komponen untuk manajemen program

  8. COMPONENT NOTATION • A component is shown as a rectangle with • A keyword <<component>> • Optionally, in the right hand corner a component icon can be displayed • A component icon is a rectangle with two smaller rectangles jutting out from the left-hand side • This symbol is a visual stereotype • The component name • Components can be labelled with a stereotype there are a number of standard stereotypes ex: <<entity>>, <<subsystem>>

  9. Component ELEMENTS • A component can have • Interfaces Sebuah interface merupakan deklarasi dari satu setoperasi dan obligations • Usage dependencies usage dependencyadalahhubungan yang salahsatuunsurmemerlukanunsurlainuntukimplementasipenuh • Ports Port merupakan titik interaksi antara komponenserta lingkungan • Connectors • Connect two components • Connect the external contract of a component to the internal structure

  10. INTERFACE • Komponen mendefinisikan perilaku dalam hal interface provided dan required • An interface • Merupakan definisi dari kumpulan satu atau lebih operasi • Hanya menyediakan operasi tetapi tidak implementasinya • Implementasi biasanya disediakan oleh kelas / komponen • Dalam sistem yang kompleks, Implementasi disediakan oleh sekelompok kelas daripada satu kelas

  11. INTERFACE • May be shown using a rectangle symbol with a keyword <<interface>> preceding the name • For displaying the full signature, the interface rectangle can be expanded to show details • Can be • Provided • Required

  12. INTERFACE • A provided interface • Characterize services that the component offers to its environment • Is modeled using a ball, labelled with the name, attached by a solid line to the component • A required interface • Characterize services that the component expects from its environment • Is modeled using a socket, labelled with the name, attached by a solid line to the component • In UML 1.x were modeled using a dashed arrow

  13. INTERFACE • 2 komponen / kelas dapat memberikan atau membutuhkan interface yang sama sehingga notasi dapat dikombinasikan. • Notasi Ball-and-socket menggambarkan interaksi diantara 2 komponen yang saling membutuhkan • If an interface is shown using the rectangle symbol, we can use an alternative notation, using dependency arrows

  14. INTERFACE • Pada kontek sistem dimana terdapat multipel komponen yang membutuhkan atau memberikan interface tertentu, notasi abstrak dapat digunakan untuk mengkombinasikan. • A component • Specifies a CONTRACT of the services that it provides to its clients and that it requires from others components in terms of its provided and required interfaces • Can be replaced • The system can be extended

  15. DEPENDENCIES • Components can be connected by usage dependencies • Usage Dependency • usage dependency merupakan relasi dimana satu elemen membutuhkan elemen lain untuk implementasi penuh • Merupakan dependensi dimana client membutuhkan kehadiran suplier. • Digambarkan sebagai panah putus dengan <<use>> keyword • The arrowhead point from the dependent component to the one of which it is dependent

  16. PORT • Menspesifikasikan titik interaksi • Between that component and its environment • Between that component and its internal parts • Is shown as a small square symbol • Ports can be named, and the name is placed near the square symbol • Is associated with the interfaces that specify the nature of the interactions that may occur over a port

  17. PORT • Ports can support unidirectional communication or bi-directional communication • If there are multiple interfaces associated with a port, these interfaces may be listed with the interface icon, separated by a commas

  18. PORT • Semua interaksi komponen dengan lingkungan dilakukan melalui port. • Internal tertutup rapat dari lingkungan • Ports are not defined in UML 1.x

  19. EXTERNAL VIEW • An external view (or black box view) memperlihatkan properti dan operasi yang publik • Komponen memiliki external view dan internal view • The interface can be listed in the compartment of a component box

  20. INTERNAL VIEW • An internal, atau white box view komponenmerupakan kelas/komponen yang terealisasikan dalam komponen • Realization is merupakan realisasi diantara 2 set model elemen • Satu merepresentasikan spesifikasi • Lainnya merepresentasikan implementasi

  21. INTERNAL VIEW • The internal class that realize the behavior of a component may be displayed in an additional compartment • Compartments can also be used to display parts, connectors or implementation artifacts • An artifact is the specification of a phisycal piece of information

  22. INTERNAL VIEW • Components can be built recursively

  23. ASSEMBLY • Dua macam konektor • Delegation • Assembly • ASSEMBLY CONNECTOR • Konektor diantara 2 komponen mendefinisikan bahwa satu komponen memberikan layanan yang dibutuhkan oleh komponen lain. • Harus didefinisikan dari required interface ke provided interface • An assembly connector is notated by a “ball-and-socket” connection

  24. DELEGATION • DELEGATION CONNECTOR • Links the external contract of a component to the internal realization • Represents the forwarding of signals • He must only be defined between used interfaces or ports of the same kind

  25. DELEGATION • The target interface must support a signature compatible with a subset of operations of the source interface • A port may delegate to a set of ports on subordinate components • The union of the target interfaces must be signature compatible with the source interface • Semantics: • Is a declaration that behaviour that is available on a component instance is not realized by that component itself, but by another instance that has compatible capabilities • Is used to model the hierarchical decomposition • Message and signal flow will occur between the connected ports

  26. CASE STUDY

  27. CASE STUDY

  28. DEPLOYMENT DIAGRAMS • Deployment diagrams • Show the physical relationship between hardware and software in a system • Hardware elements: • Computers (clients, servers) • Embedded processors • Devices (sensors, peripherals) • Are used to show the nodes where software components reside in the run-time system • There is a strong link between components diagrams and deployment diagrams

  29. DEPLOYMENT DIAGRAMS • Deployment diagram • Contains nodes and connections • A node usually represent a piece of hardware in the system • A connection depicts the communication path used by the hardware to communicate • Usually indicates the method such as TCP/IP

  30. DEPLOYMENT DIAGRAMS • Deployment diagrams contain artifact • An artifact • Is the specification of a phisycal piece of information • Ex: source files, binary executable files, table in a database system,…. • An artifact defined by the user represents a concrete element in the physical world

  31. DEPLOYMENT DIAGRAMS • An artifact manifest one or more model elements • A <<manifestation>> is the concrete physical of one or more model elements by an artifact • This model element often is a component • A manifestation is notated as a dashed line with an openarrow-head labeled with the keyword <<manifest>>

  32. DEPLOYMENT DIAGRAMS

  33. REFERENCIES • UML 2.0 Superstructure Specification August 2, 2003 UML 2 SuperstructureFinal Adopted Specification www.omg.org/cgi-bin/doc?ptc/2003-08-02 • The Diagrams of UML 2.0 by Scott W. Ambler, 2003-2004 www.agilemodeling.com/essays/umlDiagrams.htm • UML overview By Mandar Chitnis, Pravin Tiwari, & Lakshmi Ananthamurthy http://www.developer.com/design/article.php/1553851

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