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| h čeština (cs) | * [[Image:Feature1.jpg|left]] Kompletní ''geometrické jádro'' založené na technologii Open CASCADE (https://en.wikipedia.org/wiki/Open_CASCADE), které umožňuje komplexní 3D operace na složitých typech tvarů, s nativní podporou konceptů, jako jsou křivky a plochy [https://en.wikipedia.org/wiki/Boundary_representation Boundary Representation] (BREP), [https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline Non-uniform rational basis spline] (NURBS) křivky a povrchy, širokou škálu geometrických entit, booleovských operací a [https://en.wikipedia.org/wiki/Fillet_(mechanics) fillets] a vestavěnou podporou formátů [https://en.wikipedia.org/wiki/ISO_10303 STEP] a [https://en.wikipedia.org/wiki/IGES IGES] {{clear}} * [[Image:Feature3.jpg|left]] Kompletní [https://en.wikipedia.org/wiki/Open_CASCADE Open CASCADE Technology] založené '''geometrické jádro''' Plně '''parametrický model'''. Všechny objekty FreeCADu jsou nativně parametrické, což znamená, že jejich tvar může být založen na [[Property/cs|vlastnostech]] nebo dokonce záviset na jiných objektech. Všechny změny jsou přepočítávány podle potřeby a zaznamenávány do zásobníku zpět/znovu. Nové typy objektů lze snadno přidávat a lze je dokonce [[Scripted_objects/cs|plně programovat v Pythonu]].{{clear}} * [[Image:Feature4.jpg|left]] '''Modulární architektura''', která umožňuje pluginovým rozšířením (modulům a pracovním stolům) přidávat funkce do základní aplikace. Rozšíření může být tak složité jako zcela nová aplikace naprogramovaná v C++ nebo tak jednoduché jako [[Power_users_hub/cs|skript v Pythonu]] nebo vlastní [[Macros/cs|makra]]. Máte úplný přístup k téměř jakékoli části FreeCADu z vestavěného interpretu '''Pythonu''', maker nebo externích skriptů, ať už se jedná o [[Topological_data_scripting/cs|tvorbu a transformaci geometrie]], 2D nebo 3D reprezentaci této geometrie ([[Scenegraph/cs|Scénografie]]) nebo dokonce [[PySide/cs|rozhraní FreeCADu]]. {{clear}} * [[Image:Feature5.jpg|left]] Import/export do '''standardních formátů''', jako jsou [https://en.wikipedia.org/wiki/ISO_10303 STEP], [https://en.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ], [https://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [https://en.wikipedia.org/wiki/Dxf DXF], [https://en.wikipedia.org/wiki/Svg SVG], [https://en.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] nebo [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://en.wikipedia.org/wiki/NASTRAN NASTRAN], [https://en.wikipedia.org/wiki/VRML VRML] kromě nativního formátu souboru FreeCAD {{FileName|[[File Format FCStd/cs|FCStd]]}}. Úroveň kompatibility mezi FreeCADem a daným formátem souboru se může lišit, protože závisí na pracovním prostředí, které ho implementuje.{{clear}} * [[Image:Feature7.jpg|left]] [[Sketcher_Workbench/cs|Sketcher]] s integrovaným řešitelem vazeb, který umožňuje kreslit 2D tvary s geometrickými vazbami. Omezené 2D tvary vytvořené pomocí Sketcheru lze poté použít jako základ pro vytváření dalších objektů v celém FreeCADu.{{clear}} * [[Image:Feature8.jpg|left]] [[TechDraw_Workbench/cs|Pracovní plocha TechDraw]] s možnostmi detailních pohledů, průřezových pohledů, kótování a dalších funkcí, která umožňuje generovat 2D pohledy na existující 3D modely. Pracovní plocha poté vytvoří soubory SVG nebo PDF připravené k exportu.{{clear}} * [[Image:Feature-arch.jpg|left]] [[BIM_Workbench/cs|Pracovní plocha BIM]] umožňuje pracovní postup podobný [https://en.wikipedia.org/wiki/Building_Information_Modeling Building Information Modeling] (BIM) a je kompatibilní s [https://en.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes] (IFC).{{clear}} * [[Image:Feature-CAM.jpg|left]] [[CAM_Workbench/cs|Pracovní plocha CAM]] určená pro mechanické obrábění pro [https://en.wikipedia.org/wiki/Computer-aided_manufacturing počítačem podporovanou výrobu] (CAM). Pomocí pracovní plochy CAM můžete vypisovat, zobrazovat a upravovat [https://en.wikipedia.org/wiki/G-code G kód] používaný k ovládání cílového stroje.{{clear}} * [[Image:Feature_spreadsheet.png|left]] Integrovaná tabulka [[Spreadsheet_Workbench/cs|Integrovaná tabulka]] a [[Expressions/cs|Parser výrazů]], které lze použít k řízení modelů založených na vzorcích a k organizaci dat modelu na centrálním místě.{{clear}} |
| h Deutsch (de) | * [[Image:Feature1.jpg|left]] Ein vollständiger [https://de.wikipedia.org/wiki/Open_CASCADE_Technology Open CASCADE Technologie]-basierter '''Geometriekernel''', der komplexe 3D-Arbeitsabläufe an komplexen Formtypen ermöglicht, mit eigener Unterstützung für Konzepte wie [https://de.wikipedia.org/wiki/Boundary_Representation Begrenzungsflächenmodell] (BREP), [https://de.wikipedia.org/wiki/Non-Uniform_Rational_B-Spline Nicht-uniforme rationale B-Splines] (NURBS)-Kurven und -Oberflächen, eine ausgedehnter Bereich von geometrischen Elementen, booleschen Verknüpfungen und [https://en.wikipedia.org/wiki/Fillet_(mechanics) Verrundungen] sowie eingebaute Unterstützung der Formate [https://de.wikipedia.org/wiki/Standard_for_the_exchange_of_product_model_data STEP] und [https://de.wikipedia.org/wiki/Initial_Graphics_Exchange_Specification IGES]. {{clear}} * [[Image:Feature3.jpg|left]] Ein vollständig '''parametrisches Modell'''. Alle FreeCAD-Objekte sind von sich aus parametrisch, d.h. ihre Form kann auf [[Property/de|Eigenschaften]] basieren oder sogar von anderen Objekten abhängen. Alle Änderungen werden bei Bedarf neu berechnet und durch einen Rückgängig-/Wiederholen-Stapel aufgezeichnet. Neue Objekttypen lassen sich leicht hinzufügen und können sogar [[Scripted_objects/de|voll in Python programmiert]] werden.{{clear}} * [[Image:Feature4.jpg|left]] Eine '''modulare Architektur''', die es zusätzlichen Programmerweiterungen (Modulen und Arbeitsbereichen) erlaubt, Funktionalität zur Kernanwendung hinzuzufügen. Eine Erweiterung kann so komplex sein, wie eine ganz neue, in C++ programmierte Anwendung oder so einfach wie ein [[Power_users_hub/de|Python-Skript]] oder selbstaufgezeichnete [[Macros/de|Makros]]. Du hast vollständigen Zugriff auf fast jeden Teil von FreeCAD über den eingebauten '''Python'''-Interpreter, Makros oder externe Skripte, sei es [[Topological_data_scripting/de|Geometrieerstellung und Transformation]], die 2D- oder 3D-Darstellung dieser Geometrie ([[Scenegraph/de|Szenengraph]]) oder sogar die [[PySide/de|FreeCAD-Oberfläche]]. {{clear}} * [[Image:Feature5.jpg|left]] Import/Export in '''Standardformate''' wie [https://en.wikipedia.org/wiki/ISO_10303 STEP], [https://en.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ], [https://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [https://en.wikipedia.org/wiki/Dxf DXF], [https://en.wikipedia.org/wiki/Svg SVG], [https://en.wikipedia. org/wiki/STL_(file_format) STL], [https://en.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] oder [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://en.wikipedia.org/wiki/NASTRAN NASTRAN], [http://en.wikipedia.org/wiki/VRML VRML] zusätzlich zu FreeCADs eigenem Dateiformat {{FileName|[[File Format FCStd/de|FCStd]]}}. Das Niveau der Kompatibilität zwischen FreeCAD und einem bestimmten Dateiformat kann variieren, da es von dem Arbeitsbereich abhängt, der es implementiert.{{clear}} * [[Image:Feature7.jpg|left]] Ein [[Sketcher_Workbench/de|Sketcher]] mit integriertem Gleichungslöser für Randbedingungen, der das Skizzieren geometrisch bestimmter 2D-Formen erlaubt. Die mit dem Sketcher erstellten (und) festgelegten 2D-Formen können dann als Basis für die Erstellung anderer Objekte in allen Bereichen von FreeCAD verwendet werden.{{clear}} * [[Image:Feature8.jpg|left]] Ein Arbeitsbereich [[TechDraw_Workbench/de|TechDraw]] für technische Zeichnungen mit Optionen für Detailansichten, Schnittansichten, Bemaßung u.a., der es erlaubt, 2D-Ansichten von vorhandenen 3D-Modellen abzuleiten. Der Arbeitsbereich erzeugt dann exportfertige SVG- oder PDF-Dateien.{{clear}} * [[Image:Feature-arch.jpg|left]] Ein Arbeitsbereich [[BIM_Workbench/de|BIM]], der Arbeitsabläufe ähnlich der [https://de.wikipedia.org/wiki/Building_Information_Modeling Bauwerksdatenmodellierung] (Building-Information-Modeling kurz BIM) ermöglicht, mit Kompatibilität zu [https://de.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes] (IFC).{{clear}} * [[Image:Feature-CAM.jpg|left]] Ein Arbeitsbereich [[CAM_Workbench/de|CAM]], vorgesehen für die mechanische Bearbeitung, für die [https://de.wikipedia.org/wiki/Computer-aided_manufacturing Computerunterstützte Fertigung] (Computer-Aided-Manufacturing kurz CAM). Durch Verwendung des Arbeitsbereichs CAM kann [https://en.wikipedia.org/wiki/G-code G-Code], der zur Steuerung der Zielmaschine verwendet wird, ausgegeben, angezeigt und angepasst werden. {{clear}} * [[Image:Feature_spreadsheet.png|left]] Eine integrierte [[Spreadsheet_Workbench/de|Kalkulationstabelle]] und ein [[Expressions/de|Syntaxanalysierer für Ausdrücke]], die zur Steuerung formelbasierter Modelle und zur Organisation von Modelldaten an einem zentralen Ort verwendet werden können.{{clear}} |
| h English (en) | * [[Image:Feature1.jpg|left]] A complete [https://en.wikipedia.org/wiki/Open_CASCADE Open CASCADE Technology]-based '''geometry kernel''' allowing complex 3D operations on complex shape types, with native support for concepts like [https://en.wikipedia.org/wiki/Boundary_representation Boundary Representation] (BREP), [https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline Non-uniform rational basis spline] (NURBS) curves and surfaces, a wide range of geometric entities, boolean operations and [https://en.wikipedia.org/wiki/Fillet_(mechanics) fillets], and built-in support of [https://en.wikipedia.org/wiki/ISO_10303 STEP] and [https://en.wikipedia.org/wiki/IGES IGES] formats {{clear}} * [[Image:Feature3.jpg|left]] A full '''parametric model'''. All FreeCAD objects are natively parametric, meaning their shape can be based on [[Property|properties]] or even depend on other objects. All changes are recalculated on demand, and recorded by an undo/redo stack. New object types can be added easily, and can even be [[Scripted_objects|fully programmed in Python]].{{clear}} * [[Image:Feature4.jpg|left]] A '''modular architecture''' that allows plugin extensions (modules and workbenches) to add functionality to the core application. An extension can be as complex as a whole new application programmed in C++ or as simple as a [[Power_users_hub|Python script]] or self-recorded [[Macros|macro]]. You have complete access to almost any part of FreeCAD from the built-in '''Python''' interpreter, macros or external scripts, be it [[Topological_data_scripting|geometry creation and transformation]], the 2D or 3D representation of that geometry ([[Scenegraph|scenegraph]]) or even the [[PySide|FreeCAD interface]].{{clear}} * [[Image:Feature5.jpg|left]] Import/export to '''standard formats''' such as [https://en.wikipedia.org/wiki/ISO_10303 STEP], [https://en.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ], [https://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [https://en.wikipedia.org/wiki/Dxf DXF], [https://en.wikipedia.org/wiki/Svg SVG], [https://en.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] or [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://en.wikipedia.org/wiki/NASTRAN NASTRAN], [https://en.wikipedia.org/wiki/VRML VRML] in addition to FreeCAD's native {{FileName|[[File Format FCStd|FCStd]]}} file format. The level of compatibility between FreeCAD and a given file format can vary, since it depends on the workbench that implements it.{{clear}} * [[Image:Feature7.jpg|left]] A [[Sketcher_Workbench|Sketcher]] with integrated constraint-solver, allowing you to sketch geometry-constrained 2D shapes. The constrained 2D shapes built with Sketcher may then be used as a base to build other objects throughout FreeCAD.{{clear}} * [[Image:Feature8.jpg|left]] A [[TechDraw_Workbench|technical drawing workbench]] with options for detail views, cross sectional views, dimensioning and others, allowing you to generate 2D views of existing 3D models. The workbench then produces ready-to-export SVG or PDF files.{{clear}} * [[Image:Feature-arch.jpg|left]] A [[BIM_Workbench|BIM Workbench]] that allows [https://en.wikipedia.org/wiki/Building_Information_Modeling Building Information Modeling] (BIM)-like workflow, with [https://en.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes] (IFC) compatibility.{{clear}} * [[Image:Feature-CAM.jpg|left]] A [[CAM_Workbench|CAM Workbench]] dedicated to mechanical machining for [https://en.wikipedia.org/wiki/Computer-aided_manufacturing Computer Aided Manufacturing] (CAM). Using the CAM Workbench you may output, display and adjust the [https://en.wikipedia.org/wiki/G-code G code] used to control the target machine.{{clear}} * [[Image:Feature_spreadsheet.png|left]] An [[Spreadsheet_Workbench|Integrated Spreadsheet]] and an [[Expressions|expression parser]] which may be used to drive formula-based models and organize model data in a central location.{{clear}} |
| h français (fr) | * [[Image: Feature1.jpg|left]] Le '''noyau géométrique''' complet basé sur [https://fr.wikipedia.org/wiki/Open_CASCADE_Technology Open CASCADE Technology] permet des opérations 3D complexes sur des formes complexes, avec prise en charge native de concepts tels que les [https://fr.wikipedia.org/wiki/B-Rep B-Rep], les [https://fr.wikipedia.org/wiki/NURBS NURBS] (courbes et surfaces), un large éventail de modules géométriques, d'opérateurs booléens, des [https://fr.wikipedia.org/wiki/Arrondi_et_cong%C3%A9 arrondis et congés] ainsi que la prise en charge des formats [https://fr.wikipedia.org/wiki/Standard_pour_l%27%C3%A9change_de_donn%C3%A9es_de_produit STEP] et [https://fr.wikipedia.org/wiki/Initial_Graphics_Exchange_Specification IGES] {{clear}} * [[Image:Feature3.jpg|left]] Un '''modèle paramétrique''' complet. Tous les objets construits dans FreeCAD sont paramétriques, ce qui signifie que leurs formes sont basées sur des [[Property/fr|propriétés]] ou peuvent même dépendre d'autres objets. Toutes les modifications sont recalculées à la demande et enregistrées dans la pile annuler/rétablir. Les nouveaux types d'objet peuvent être ajoutés très facilement et peuvent même être totalement [[Scripted_objects/fr|programmés en Python]].{{clear}} * [[Image:Feature4.jpg|left]] L''''architecture modulaire''' permet aux extensions (modules et ateliers) d'ajouter des fonctionnalités à l'application de base. Ces extensions peuvent être aussi complexes qu'une nouvelle application programmée en '''[https://fr.wikipedia.org/wiki/C%2B%2B C++]''' ou aussi simple qu'un '''[[Power_users_hub/fr|Script Python]]''' ou encore une [[Macros/fr|macro]] que vous avez enregistrée. Vous avez un accès complet à la console '''[https://www.python.org/ Python]''' intégrée pour concevoir vos macros ou exécuter des scripts externes, à pratiquement n'importe quelle partie de FreeCAD que ce soit pour la création, la transformation, la représentation [[Topological_data_scripting/fr|géométrique]] 2D ou 3D de votre [[Scenegraph/fr|Graphe de scène]] ou même l'[[PySide/fr|interface de FreeCAD]] elle-même.{{clear}} * [[Image:Feature5.jpg|left]] L'importation/exportation de '''formats standards''' tels que [https://fr.wikipedia.org/wiki/Standard_pour_l%27%C3%A9change_de_donn%C3%A9es_de_produit STEP], [https://fr.wikipedia.org/wiki/Initial_Graphics_Exchange_Specification IGES], [https://fr.wikipedia.org/wiki/Obj OBJ], [https://fr.wikipedia.org/wiki/Fichier_de_st%C3%A9r%C3%A9olithographie STL], [https://fr.wikipedia.org/wiki/Drawing_eXchange_Format DXF], [https://fr.wikipedia.org/wiki/Scalable_Vector_Graphics SVG], [https://fr.wikipedia.org/wiki/Collaborative_Design_Activity DAE], [https://fr.wikipedia.org/wiki/Industry_Foundation_Classes SFI] ou [https://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://fr.wikipedia.org/wiki/Nastran NASTRAN], [https://fr.wikipedia.org/wiki/Virtual_Reality_Markup_Language VRML], outre le format de fichier originaire de FreeCAD''' {{FileName|[[File Format FCStd/fr|FCStd]]}}'''. Le niveau de compatibilité entre FreeCAD et un format de fichier donné peut varier car cela dépend de l'atelier qui l'implémente.{{clear}} * [[Image:Feature7.jpg|left]] L'[[Sketcher_Workbench/fr|atelier Sketcher]] est un solveur de contraintes qui permet de faire des esquisses des formes 2D géométriques contraintes. L'esquisse 2D contrainte avec Sketcher permet aujourdh'ui de construire plusieurs types de contraintes géométriques et de les utiliser comme la base de construction d'autres objets tout au long de l'utilisation de FreeCAD.{{clear}} * [[Image: Feature8.jpg|left]] L'[[TechDraw_Workbench/fr|atelier TechDraw]] avec les options telles que vue détaillée, coupes, cotations et autres permet de générer des vues 2D sur feuille à partir de vos modèles 3D. Ce module produit des feuilles au format SVG ou PDF prêtes à être exportées.{{clear}} * [[Image:Feature-arch.jpg|left]] L'[[BIM_Workbench/fr|atelier BIM]] permet d'utiliser les [https://fr.wikipedia.org/wiki/Building_Information_Modeling BIM] comme processus de travail et est compatible avec le format [https://fr.wikipedia.org/wiki/Industry_Foundation_Classes IFC].{{clear}} * [[Image:Feature-CAM.jpg|left]] L'[[CAM_Workbench/fr|atelier CAM]] est dédié à l'usinage mécanique [https://fr.wikipedia.org/wiki/Fabrication_assist%C3%A9e_par_ordinateur Fabrication assistée par ordinateur] (FAO). Avec l'atelier CAM, vous êtes en mesure d'afficher et de modifier le [https://fr.wikipedia.org/wiki/Programmation_de_commande_num%C3%A9rique G-code] contrôlant votre machine. {{clear}} * [[Image: Feature_spreadsheet.png|left]] L'[[Spreadsheet_Workbench/fr|atelier Spreadsheet]] et l'[[Expressions/fr|analyseur d'expression]] permettent de piloter des feuilles basées sur des formules ou de récupérer des données à partir de modèles. {{Clear}} |
| h Bahasa Indonesia (id) | !!FUZZY!!* [[Image:Feature1.jpg|left]] Berbasiskan [http://en.wikipedia.org/wiki/Open_CASCADE Teknologi Open CASCADE] '''kernel geometri''' yang lengkap memungkinkan operasi 3D yang rumit pada bentuk - bentuk yang komplek, dengan dukungan bawaan untuk konsep - konsep seperti [http://en.wikipedia.org/wiki/Boundary_representation brep], [http://en.wikipedia.org/wiki/Non-uniform_rational_B-spline nurbs curves] dan [http://en.wikipedia.org/wiki/Surface permukaan], berbagai kesatuan geometri, [http://en.wikipedia.org/wiki/Constructive_solid_geometry '''boolean'''] dan [http://en.wikipedia.org/wiki/Fillet_(mechanics) '''fillet'''] dan mendukung format STEP dan IGES. {{clear}} * [[Image:Feature3.jpg|left]] Sebuah pemodelan prametrik yang lengkap. Semua objek FreeCAD adalah murni parametrik, yang berarti bentuk - bentuknya dapat didasarkan pada [[Property/id|properties]] atau bahkan bergantung pada objek lain, semua perubahan dihitung saat itu juga, dan disimpan oleh sistem undo/redo. Tipe objek baru dapat ditambahkan dengan mudah, yang bahkan dapat di [[Scripted objects/id|fully programmed in Python]]{{clear}} * [[Image:Feature4.jpg|left]] '''Modul asitektur''' yang memungkinkan plugin (modul) untuk menambahkan fungsi ke inti aplikasi. Penambahan - penambahan itu dapat se-kompleks seperti aplikasi baru atau sesederhana seperti [[Power users hub/id|Python scripts]] atau self-recorded [[macros/id|macros]]. Kamu mempunyai akses penuh melalui interpreter '''Python''', makro atau skrip - skrip eksternal terhadap hampir semua bagian dari FreeCAD, dalam [[Topological data scripting/id|pembuatan geometri dan transformasinya]], representasi 2D atau 3D dari geometrinya([[scenegraph/id|scenegraph]]) atau bahkan [[PySide/id|Antarmuka FreeCAD]] {{clear}} * [[Image:Feature5.jpg|left]] Import/export ke '''format standar''' seperti [http://en.wikipedia.org/wiki/ISO_10303 STEP], [http://en.wikipedia.org/wiki/IGES IGES], [http://en.wikipedia.org/wiki/Obj OBJ], [http://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [http://en.wikipedia.org/wiki/Dxf DXF], [http://en.wikipedia.org/wiki/Svg SVG], [http://en.wikipedia.org/wiki/STL_(file_format) STL], [http://en.wikipedia.org/wiki/COLLADA DAE], [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] or [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [http://en.wikipedia.org/wiki/NASTRAN NASTRAN], [http://en.wikipedia.org/wiki/VRML VRML] selain format asli FreeCAD [[Fcstd file format/id|Fcstd file format]]. Tingkat kompatibilitas antara FreeCAD dan format file yang diberikan dapat bervariasi, karena tergantung pada modul yang mengimplementasikannya. {{clear}} * [[Image:Feature7.jpg|left]] [[Sketcher Workbench/id|Sketcher]] dengan constraint-solver, memungkinkan untuk membentuk sketsa 2D berbasis geometry-constraint. Saat ini sketcher memungkinkan kamu untuk membangun beberapa tipe dari constrained-geometri, dan memakainya sebagai dasar untuk membangun objek yang lain dalam FreeCAD.{{clear}} * [[Image:Feature9.jpg|left]] Modul [[Robot Workbench/id|Robot simulation]] memungkinkan untuk mempelajari pergerakan robot. Modul robot sudah memiliki antarmuka grafis yang memungkinkan mengaturkan alur kerja hanya melalui antarmuka grafis saja.{{clear}} * [[Image:Feature8.jpg|left]] Modul [[Drawing Workbench/id|Drawing sheets]] yang mampu membuat tampilan 2D dari model 3D-mu pada kertas lembar kerja. Hal ini kemudian menghasilkan modul siap ekspor ke lembaran kerja SVG atau PDF. Modul ini masih belum sempurna tetapi sudah dilengkapi dengan fungsi Python sangat berguna.{{clear}} * [[Image:Feature-raytracing.jpg|left]] Modul [[Raytracing Workbench/id|Rendering]] yang dapat mengekspor objek 3D untuk rendering dengan renderers eksternal. Saat ini hanya mendukung [http://en.wikipedia.org/wiki/POV-Ray Povray] and [http://en.wikipedia.org/wiki/LuxRender LuxRender], namun diharapkan akan diperluas ke renderers lain di masa depan.{{clear}} * [[Image:Feature-arch.jpg|left]] Modul [[Arch Workbench/id|Architecture]] yang memungkinkan membuat alurkerja seperti [http://en.wikipedia.org/wiki/Building_Information_Modeling BIM], yang kompatibel dengan [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]. Pembuatan modul Arch sangat serius dibahas oleh komunitas [http://www.freecad.org/forum/viewtopic.php?f=10&t=821 di forum ini].{{clear}} |
| h italiano (it) | * [[Image:Feature1.jpg|left]] Un '''kernel geometrico''' (nucleo) basato su [https://it.wikipedia.org/wiki/Open_CASCADE_Technology OpenCasCade] permette operazioni complesse su profili di varia natura, anche molto articolati. È presente il supporto nativo al [https://it.wikipedia.org/wiki/B-Rep BREP], alle curve e alle superfici [https://it.wikipedia.org/wiki/NURBS NURBS], una vasta gamma di entità geometriche, di operazioni booleane e [https://en.wikipedia.org/wiki/Fillet_(mechanics) raccordi], e il supporto interno per i file [https://it.wikipedia.org/wiki/ISO_10303 STEP] e [https://it.wikipedia.org/wiki/IGES IGES]. {{clear}} * [[Image:Feature3.jpg|left]] Un '''modellatore interamente parametrico'''. Tutti gli oggetti di FreeCAD sono nativamente parametrici, il che significa che la loro forma può essere basata sulle [[Property/it|proprietà]] o anche dipendere da altri oggetti. Tutte le modifiche possono essere ricalcolate a richiesta, e registrate dall'albero delle operazioni annulla o ripeti. Possono essere aggiunti facilmente nuovi tipi di oggetti, e possono anche essere [[Scripted_objects/it|completamente programmati in Python]].{{clear}} * [[Image:Feature4.jpg|left]] Una '''architettura modulare''' che consente ai plugin (moduli e ambienti di lavoro) di aggiungere funzionalità all'applicazione principale. Un'estensione può essere complessa, come un'intera nuova applicazione programmata in C++ o essere semplice, come uno [[Power_users_hub/it|script Python]] o una [[macros/it|macro]] auto-registrata. Attraverso l'utilizzo della riga di comando integrata nella GUI, è possibile accedere praticamente a tutte le funzionalità del software per mezzo di semplici comandi '''Python'''. Si possono [[Topological_data_scripting/it|creare e/o modificare oggetti geometrici]], interagire con [[Scenegraph/it|l'ambiente di lavoro]] o addirittura [[PySide/it|personalizzare l'interfaccia grafica]] del programma.{{clear}} * [[Image:Feature5.jpg|left]] È possibile importare ed esportare molti dei '''formati standard''' di rappresentazione 3D, come ad esempio: [https://it.wikipedia.org/wiki/ISO_10303 STEP], [https://it.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ], [https://it.wikipedia.org/wiki/STL_(formato_di_file) STL], [https://it.wikipedia.org/wiki/AutoCAD_DXF DXF], [https://it.wikipedia.org/wiki/Scalable_Vector_Graphics SVG], [https://it.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] oppure [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://it.wikipedia.org/wiki/Nastran NASTRAN], [https://it.wikipedia.org/wiki/VRML VRML], oltre al formato nativo di FreeCAD {{FileName|[[File_Format_FCStd/it|FCStd]]}}. Il livello di compatibilità tra FreeCAD e un formato di file specifico è variabile, dipende dal'ambiente di lavoro che lo implementa.{{clear}} * [[Image:Feature7.jpg|left]] Un ambiente di [[Sketcher_Workbench/it|sketch]] dotato di strumenti per disegnare sagome in 2D vincolate. Questa funzionalità permette di vincolare in diversi modi le geometrie tracciate e poi di utilizzarle come base per la costruzione delle forme 3D.{{clear}} * [[Image:Feature8.jpg|left]] Un nuovo ambiente di lavoro comodo per creare [[TechDraw_Workbench/it|fogli di disegno tradizionali]] con opzioni per viste di dettaglo, sezioni trasversali, quotatura e altre, che consente di inserire delle viste 2D dei modelli 3D su un foglio. Questo ambiente di lavoro produce quindi fogli SVG o PDF pronti per l'esportazione.{{clear}} * [[Image:Feature-arch.jpg|left]] Un ambiente [[BIM_Workbench/it|BIM]] compatibile con il modello [https://it.wikipedia.org/wiki/Building_Information_Modeling BIM] e con l'[https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC].{{clear}} * [[Image:Feature-CAM.jpg|left]] Un ambiente [[CAM_Workbench/it|CAM]] dedicato alle lavorazioni meccaniche e al [https://it.wikipedia.org/wiki/Computer-aided_manufacturing Computer Aided Manufacturing] (CAM). L'ambiente CAM è in grado di produrre, visualizzare e modificare il [https://it.wikipedia.org/wiki/Codice_G Codice G] utilizzato per controllare la macchina di destinazione.{{clear}} * [[Image:Feature_spreadsheet.png|left]] Un [[Spreadsheet_Workbench/it|foglio di calcolo integrato]] e un [[Expressions/it|parser delle espressioni]] per creare modelli basati su formule e organizzare i dati del modello in una posizione centrale.{{clear}} |
| h 日本語 (ja) | * [[Image:Feature1.jpg|left]] 複雑な形状に対する高度な3D操作を可能にする、完全な[https://ja.wikipedia.org/wiki/Open_Cascade_%E3%83%86%E3%82%AF%E3%83%8E%E3%83%AD%E3%82%B8%E3%83%BC]ベースの''ジオメトリカーネルを持ち、以下のような概念を標準でサポートしています。[https://en.wikipedia.org/wiki/Boundary_representation 境界表現](BREP)、[https://ja.wikipedia.org/wiki/NURBS N非一様有理Bスプライン](NURBS)曲線と表面、幅広い幾何エンティティ、ブール演算や[https://ja.wikipedia.org/wiki/%E3%83%95%E3%82%A3%E3%83%AC%E3%83%83%E3%83%88_(%E6%A9%9F%E6%A2%B0%E5%B7%A5%E5%AD%A6) フィレット]、[https://ja.wikipedia.org/wiki/ISO_10303 STEP]や[https://ja.wikipedia.org/wiki/IGES IGES]フォーマット。 {{clear}} * [[Image:Feature3.jpg|left]] 完全にパラメトリックなモデリング。すべてのFreeCADオブジェクトは本質的にパラメトリックです。その形状は[[Property/ja|プロパティー]]または他のオブジェクトによって決まります。すべての変更点は必要に応じて再計算され、変更履歴の管理(アンドゥ/リドゥ)機能に記録されます。新しいオブジェクト・タイプを追加することも容易で、[[Scripted_objects|Pythonプログラム]]でプログラムすることも可能です。{{clear}} * [[Image:Feature4.jpg|left]] '''モジュール構造'''によって、(モジュールやワークベンチなどの)プラグインを追加して機能の拡張ができます。これら拡張機能は、C++でプログラムされた複雑なものから、簡単な[[Power_users_hub|Pythonスクリプト]]、自分で記録した[[Macros|マイロ]]まで対応可能です。組み込み'''Python'''インタプリター、マクロ、あるいは外部スクリプトを通じて、[[Topological_data_scripting|形状の作成と変形]]、形状の2Dまたは3D[[Scenegraph|表現]]、さらには[[PySide|FreeCADユーザー・インタフェース]]など、FreeCADのほとんど全ての部分にアクセスできます。{{clear}} * [[Image:Feature5.jpg|left]] FreeCADのネイティブ・フォーマットである{{FileName|[[File Format FCStd|FCStd]]}}に加えて、下記'''標準フォーマット'''をインポート・エクスポートできます: [https://ja.wikipedia.org/wiki/ISO_10303 STEP]、[https://ja.wikipedia.org/wiki/IGES IGES]、[https://en.wikipedia.org/wiki/Obj OBJ]、[https://ja.wikipedia.org/wiki/Standard_Triangulated_Language STL]、[https://ja.wikipedia.org/wiki/DXF DXF]、[https://ja.wikipedia.org/wiki/Scalable_Vector_Graphics SVG]、[https://ja.wikipedia.org/wiki/COLLADA DAE]、[https://ja.wikipedia.org/wiki/Industry_Foundation_Classes IFC]、[https://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF]、[https://ja.wikipedia.org/wiki/Nastran NASTRAN]、[https://ja.wikipedia.org/wiki/VRML VRML]。実装しているワークベンチに依存しているため、各ファイル形式とFreeCADの互換性のレベルはまちまちです。{{clear}} * [[Image:Feature7.jpg|left]] 拘束ソルバーを組み込んだ[[Sketcher_Workbench/ja|Sketcher]]を使用すると、拘束条件に基づいて2Dの図形を作成できます。Sketcherで作成した2D図形を使って、さらにFreeCADの中で別のオブジェクトを作成することができます。{{clear}} * [[Image:Feature8.jpg|left]] 詳細図面、断面図、寸法定義などの機能を備えた[[TechDraw_Workbench/ja|技術的製図ワークベンチ]]を使うと、既存の3Dモデルの2D図面を作成できます。作成した2D図面は、そのままSVGやPDFで形式でエクスポート可能です。{{clear}} * [[Image:Feature-arch.jpg|left]] [[BIM_Workbench|BIMワークベンチ]]を使って、[https://ja.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes](IFC)互換の[https://ja.wikipedia.org/wiki/BIM 建築情報モデリング](BIM)的なワークフロー管理が可能になります。{{clear}} * [[Image:Feature-CAM.jpg|left]] [https://ja.wikipedia.org/wiki/CAM コンピュータ支援製造](CAM)のための、専用の機械加工用の[[CAM_Workbench|CAMワークベンチ]]を提供しています。CAMワークベンチによって、対象となる製造機械を制御するための[http://en.wikipedia.org/wiki/G-code Gコード]を出力、表示、調整できます。{{clear}} * [[Image:Feature_spreadsheet.png|left]] [[Spreadsheet_Workbench|組み込みスプレッドシート]]と[[Expressions|数式]]を使用して、モデルのデーターを一箇所で集中管理し、数式ベースでモデルを作成することができます。{{clear}} |
| h 한국어 (ko) | * [[Image:Feature1.jpg|left]] 복잡한 형상 타입에 대해 고급 3D 연산을 수행할 수 있는 [[https://en.wikipedia.org/wiki/Open_CASCADE](https://en.wikipedia.org/wiki/Open_CASCADE) Open CASCADE Technology] 기반의 완전한 '''기하 커널(geometry kernel)'''. [[https://en.wikipedia.org/wiki/Boundary_representation](https://en.wikipedia.org/wiki/Boundary_representation) Boundary Representation] (BREP), [[https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline](https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline) Non-uniform rational basis spline] (NURBS) 곡선 및 곡면, 다양한 기하 요소, 불리언 연산 및 [[https://en.wikipedia.org/wiki/Fillet_(mechanics)](https://en.wikipedia.org/wiki/Fillet_%28mechanics%29) fillets], 그리고 [[https://en.wikipedia.org/wiki/ISO_10303](https://en.wikipedia.org/wiki/ISO_10303) STEP] 및 [[https://en.wikipedia.org/wiki/IGES](https://en.wikipedia.org/wiki/IGES) IGES] 형식에 대한 기본 지원을 포함합니다. {{clear}} * [[Image:Feature3.jpg|left]] 완전한 '''파라메트릭 모델(parametric model)'''. FreeCAD의 모든 객체는 기본적으로 파라메트릭이며, [[Property|속성]]이나 다른 객체에 의존하여 형상이 정의될 수 있습니다. 모든 변경 사항은 필요 시 재계산되며, undo/redo 스택에 기록됩니다. 새로운 객체 유형은 쉽게 추가할 수 있고, [[Scripted_objects|Python으로 완전히 프로그래밍]]할 수도 있습니다. {{clear}} * [[Image:Feature4.jpg|left]] 플러그인 확장을 통해 핵심 애플리케이션에 기능을 추가할 수 있는 '''모듈식 아키텍처(modular architecture)'''. 확장은 C++로 작성된 새로운 애플리케이션처럼 복잡할 수도 있고, [[Power_users_hub|Python 스크립트]]나 자체 녹화한 [[Macros|매크로]]처럼 간단할 수도 있습니다. 내장된 '''Python''' 인터프리터, 매크로 또는 외부 스크립트를 통해 [[Topological_data_scripting|형상 생성 및 변형]], 형상의 2D 또는 3D 표현([[Scenegraph|scenegraph]]), [[PySide|FreeCAD 인터페이스]] 등 FreeCAD의 거의 모든 부분에 완전히 접근할 수 있습니다. {{clear}} * [[Image:Feature5.jpg|left]] [[https://en.wikipedia.org/wiki/ISO_10303](https://en.wikipedia.org/wiki/ISO_10303) STEP], [[https://en.wikipedia.org/wiki/IGES](https://en.wikipedia.org/wiki/IGES) IGES], [[https://en.wikipedia.org/wiki/Obj](https://en.wikipedia.org/wiki/Obj) OBJ], [[https://en.wikipedia.org/wiki/STL_%28file_format%29](https://en.wikipedia.org/wiki/STL_%28file_format%29) STL], [[https://en.wikipedia.org/wiki/Dxf](https://en.wikipedia.org/wiki/Dxf) DXF], [[https://en.wikipedia.org/wiki/Svg](https://en.wikipedia.org/wiki/Svg) SVG], [[https://en.wikipedia.org/wiki/COLLADA](https://en.wikipedia.org/wiki/COLLADA) DAE], [[https://en.wikipedia.org/wiki/Industry_Foundation_Classes](https://en.wikipedia.org/wiki/Industry_Foundation_Classes) IFC], [[http://people.sc.fsu.edu/~jburkardt/data/off/off.html](http://people.sc.fsu.edu/~jburkardt/data/off/off.html) OFF], [[https://en.wikipedia.org/wiki/NASTRAN](https://en.wikipedia.org/wiki/NASTRAN) NASTRAN], [[https://en.wikipedia.org/wiki/VRML](https://en.wikipedia.org/wiki/VRML) VRML] 등의 '''표준 형식(standard formats)'''을 가져오고 내보낼 수 있으며, FreeCAD 고유의 {{FileName|[[File Format FCStd|FCStd]]}} 파일 형식도 지원합니다. 특정 파일 형식과 FreeCAD 간의 호환성은 해당 기능을 구현한 워크벤치에 따라 달라질 수 있습니다. {{clear}} * [[Image:Feature7.jpg|left]] 통합 제약 조건 솔버를 포함한 [[Sketcher_Workbench|Sketcher]]를 통해, 기하 제약 조건이 적용된 2D 형상을 스케치할 수 있습니다. Sketcher로 작성된 제약된 2D 형상은 FreeCAD 전반에서 다른 객체를 생성하는 기반으로 사용될 수 있습니다. {{clear}} * [[Image:Feature8.jpg|left]] 세부 뷰, 단면도, 치수 기입 등 다양한 옵션을 갖춘 [[TechDraw_Workbench|기술 도면 워크벤치(technical drawing workbench)]]를 통해 기존 3D 모델의 2D 뷰를 생성할 수 있습니다. 이 워크벤치는 SVG 또는 PDF 형식으로 바로 내보낼 수 있는 결과물을 생성합니다. {{clear}} * [[Image:Feature-arch.jpg|left]] [[https://en.wikipedia.org/wiki/Building_Information_Modeling](https://en.wikipedia.org/wiki/Building_Information_Modeling) Building Information Modeling] (BIM) 스타일의 워크플로우를 제공하며, [[https://en.wikipedia.org/wiki/Industry_Foundation_Classes](https://en.wikipedia.org/wiki/Industry_Foundation_Classes) Industry Foundation Classes] (IFC) 호환성을 갖춘 [[BIM_Workbench|BIM Workbench]]. {{clear}} * [[Image:Feature-CAM.jpg|left]] [[https://en.wikipedia.org/wiki/Computer-aided_manufacturing](https://en.wikipedia.org/wiki/Computer-aided_manufacturing) Computer Aided Manufacturing] (CAM)을 위한 기계 가공에 특화된 [[CAM_Workbench|CAM Workbench]]. 이 워크벤치를 사용하면 대상 기계를 제어하는 데 사용되는 [[https://en.wikipedia.org/wiki/G-code](https://en.wikipedia.org/wiki/G-code) G code]를 출력, 시각화 및 조정할 수 있습니다. {{clear}} * [[Image:Feature_spreadsheet.png|left]] 수식 기반 모델링을 구동하고, 모델 데이터를 중앙에서 관리할 수 있는 [[Spreadsheet_Workbench|통합 스프레드시트(Integrated Spreadsheet)]] 및 [[Expressions|수식 파서(expression parser)]]를 제공합니다. {{clear}} |
| h polski (pl) | * [[Image:Feature1.jpg|left]] Kompletne '''jądro geometrii''' bazujące na [https://en.wikipedia.org/wiki/Open_CASCADE Open CASCADE Technology] umożliwiające kompleksowe operacje 3D na złożonych typach kształtów, z natywnym wsparciem dla koncepcji takich jak [https://en.wikipedia.org/wiki/Boundary_representation Boundary Representation] ''(BREP)'', [https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline Non-uniform rational basis spline] ''(NURBS)'' krzywe i powierzchnie, szeroki zakres kształtów geometrycznych, operacje logiczne [https://en.wikipedia.org/wiki/Fillet_(mechanics) zaokrąglenia], oraz wbudowana obsługa formatów [https://en.wikipedia.org/wiki/ISO_10303 STEP] i [https://en.wikipedia.org/wiki/IGES IGES].{{clear}} * [[Image:Feature3.jpg|left]] Pełny '''model parametryczny'''. Wszystkie obiekty FreeCAD są naturalnie parametryczne, co oznacza, że ich kształt może być oparty na [[Property/pl|właściwości]] lub nawet zależny od innych obiektów. Wszystkie zmiany są przeliczane na żądanie i rejestrowane przez stos cofnij / przywróć. Nowe typy obiektów mogą być dodawane w prosty sposób, a nawet mogą być [[Scripted_objects/pl|w pełni oprogramowane w środowisku Python]].{{clear}} * [[Image:Feature4.jpg|left]] Architektura modułowa", która umożliwia korzystanie z wtyczek ''(modułów i środowisk pracy)'' do podstawowej aplikacji. Rozszerzenie może być tak złożone, jak cała nowa aplikacja zaprogramowana w C++ lub tak proste, jak [[Power_users_hub/pl|skrypt Python]] lub samodzielnie nagrana [[Macros/pl|makrodefinicja]]. Masz pełny dostęp do prawie każdej części programu FreeCAD z wbudowanego interpretera '''Python''', makr lub zewnętrznych skryptów, bez względu na to, czy jest to [[Topological_data_scripting/pl|tworzenie i transformacja geometrii]], dwu- lub trójwymiarowa reprezentacja tej geometrii ''([[Scenegraph/pl|scenogram]])'' a nawet [[PySide/pl|interfejs FreeCAD]]. {{clear}} * [[Image:Feature5.jpg|left]] Import i eksport do '''standardowych formatów''', takich jak [https://en.wikipedia.org/wiki/ISO_10303 STEP], [https://en.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ], [https://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [https://en.wikipedia.org/wiki/Dxf DXF], [https://en.wikipedia.org/wiki/Svg SVG], [https://en.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] lub [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://en.wikipedia.org/wiki/NASTRAN NASTRAN], [https://en.wikipedia.org/wiki/VRML VRML] w dodatku do macierzystego formatu plików FreeCAD {{FileName|[[File Format FCStd|FCStd]]}}. Poziom kompatybilności pomiędzy FreeCAD i danym formatem pliku może się różnić, ponieważ zależy to od środowiska pracy, który ten format wdraża.{{clear}} * [[Image:Feature7.jpg|left]] [[Sketcher_Workbench/pl|Szkicownik]] ze zintegrowanym mechanizmem wiązań, umożliwiającym szkicowanie kształtów 2D o związanej geometrii. Zbudowane za pomocą programu Sketcher związane kształty 2D mogą być następnie wykorzystane jako podstawa do budowania innych obiektów w całym FreeCAD.{{clear}} * [[Image:Feature8.jpg|left]] Środowisko pracy [[TechDraw_Workbench/pl|Rysunek Techniczny]] z opcjami widoków szczegółowych, przekrojów, wymiarowania i innych, pozwalającymi na generowanie widoków 2D istniejących modeli 3D. To środowisko pracy następnie tworzy gotowe do eksportu pliki SVG lub PDF.{{clear}} * [[Image:Feature-arch.jpg|left]] Środowisko pracy [[BIM_Workbench/pl|BIM]] umożliwia modelowanie [https://en.wikipedia.org/wiki/Building_Information_Modeling Building Information Modeling] przepływ pracy ''(BIM)'', z kompatybilnością [https://en.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes] ''(IFC)''.{{clear}} * [[Image:Feature-CAM.jpg|left]] Środowisko pracy [[CAM_Workbench/pl|CAM]] dedykowane do obróbki mechanicznej dla [https://en.wikipedia.org/wiki/Computer-aided_manufacturing Computer Aided Manufacturing] ''(CAM)''. Korzystając z modułu CAM, można tworzyć, wyświetlać i modyfikować [https://en.wikipedia.org/wiki/G-code G-code] używany do sterowania maszyną docelową.{{clear}} * [[Image:Feature_spreadsheet.png|left]] Środowisko pracy [[Spreadsheet_Workbench/pl|Arkusz Kalkulacyjny]] oraz [[Expressions/pl|parser wyrażeń]], które można wykorzystać do obsługi modeli danych opartych na formułach i organizowania danych modelu w centralnej lokalizacji.{{clear}} |
| h português (pt) | !!FUZZY!!* [[Image:Feature1.jpg|left]] Um completo '''geometry kernel''' baseado [http://en.wikipedia.org/wiki/Open_CASCADE na tecnologia Open CASCADE] permite operações 3D complexas em vários tipos de formas complexas, com suporte nativo para conceitos como brep, nurbs curves e superficies, um vasto leque de entidades geométricas, operações boleanas e "fillets", e suporte interno dos formatos STEP e IGES {{clear}} * [[Image:Feature3.jpg|left]] Um '''Modelo totalmente paramétrico'''. Todos os objetos FreeCAD são paramétricos de modo nativo, o que significa que as suas formas podem ser baseadas em [[Property/pt|propriedades]] ou mesmo dependentes de outros objetos, todas as alterações são recalculadas em tempo real, e gravadas na lista de "undo/redo". Novos tipos de objetos podem ser adicionados facilmente, e até mesmo [[Scripted objects/pt|totalmente programados em Python]]{{clear}} * [[Image:Feature4.jpg|left]] '''Arquitetura modular''' que permite a utilização de "plugins" (módulos) para acrescentar funcionalidade à aplicação principal. Estas extensões podem ser tão complexas como novas aplicações completas programadas em C++ ou tão simples como [[Power users hub/pt|Python scripts]] ou [[macros/pt|macros]] gravados automaticamente. O utilizador tem acesso completo a partir do interprete de '''Python''' interno, "macros" ou "scripts" externos, a praticamente qualquer parte do FreeCAD, seja [[Topological data scripting/pt|criação e transformação de geometria]], ou a representação 2D ou 3D dessa geometria ([[scenegraph/pt|scenegraph]]) ou até a [[PySide/pt|interface do FreeCAD]] {{clear}} * [[Image:Feature5.jpg|left]] Importar/exportar para '''formatos standard''' como sejam [http://en.wikipedia.org/wiki/ISO_10303 STEP], [http://en.wikipedia.org/wiki/IGES IGES], [http://en.wikipedia.org/wiki/Obj OBJ], [http://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [http://en.wikipedia.org/wiki/Dxf DXF], [http://en.wikipedia.org/wiki/Svg SVG], [http://en.wikipedia.org/wiki/STL_(file_format) STL], [http://en.wikipedia.org/wiki/COLLADA DAE], [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] ou [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [http://en.wikipedia.org/wiki/NASTRAN NASTRAN], [http://en.wikipedia.org/wiki/VRML VRML] além do [[Fcstd file format/pt| Formato de ficheiro Fcstd]] nativo do FreeCAD's. O nivel de compatibilidade entre o FreeCAD e um determinado formato de ficheiro pode variar, uma vez que isso depende do modulo que o implementa.{{clear}} * [[Image:Feature7.jpg|left]] Uma [[Sketcher Workbench/pt| Bancada de trabalho Esboço (Sketcher)]] com resolvedor de restrições, permite esboçar formas 2D com geometria-restringida. O "sketcher" correntemente permite construir vários tipos de geometria restringida, e usá-la como base para construir outros objetos em FreeCAD.{{clear}} * [[Image:Feature9.jpg|left]] Um módulo [[Robot Workbench/pt|Robot simulation]] que permite estudar os movimentos robotizados. O módulo robot já possui uma interface gráfica extensa que permite um fluxo de trabalho inteiramente gráfico.{{clear}} * [[Image:Feature8.jpg|left]] Um módulo [[Drawing Workbench/pt|Folhas de desenho]] que permite inserir vistas 2D dos modelos 3D numa folha de desenho. Este módulo produz folhas em SVG ou PDF prontas a exportar. Este módulo encontra-se ainda pouco desenvolvido mas já possui recursos que permitem poderosas funcionalidades Python.{{clear}} * [[Image:Feature-raytracing.jpg|left]] Um módulo [[Raytracing Workbench/pt|Renderização]] capaz de exportar objetos 3D para renderizar com renderizadores externos. De momento apenas suporta [http://en.wikipedia.org/wiki/POV-Ray povray] e [http://en.wikipedia.org/wiki/LuxRender LuxRender], mas espera-se que venha a ser extendido com outros renderizadores no futuro.{{clear}} * [[Image:Feature-arch.jpg|left]] Um Módulo [[Arch Workbench/pt|Arquitetura]] que permite um fluxo de trabalho tipo-[http://en.wikipedia.org/wiki/Building_Information_Modeling BIM], com compatibilidade [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]. A criação do módulo de Arquitetura é amplamente discutido pela comunidade [http://forum.freecad.org/viewtopic.php?f=10&t=821 aqui].{{clear}} |
| h português do Brasil (pt-br) | * [[Image:Feature1.jpg|left]] Um '''kernel de geometria''' completo com base na [http://en.wikipedia.org/wiki/Open_CASCADE tecnologia Open CASCADE] que permite operações complexas formas 3D, com suporte nativo para sólidos B-rep [https://en.wikipedia.org/wiki/Boundary_representation representação de limite], curvas e superfícies NURBS ([https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline curvas B-spline não-uniformes e de base racional]), uma ampla gama de possibilidades de geração de sólidos por operações booleanas e uso de [https://en.wikipedia.org/wiki/Fillet_(mechanics) filetes (en)], e suporte integrado aos formatos [https://en.wikipedia.org/wiki/ISO_10303 STEP] e [https://en.wikipedia.org/wiki/IGES IGES] {{clear}} * [[Image:Feature3.jpg|left]] Um '''modelo paramétrico''' completo. Todos os objetos do FreeCAD são nativamente paramétricos, o que significa que sua forma pode ser baseada em [[Property/pt-br|propriedades]] ou mesmo depender de outros objetos. Todas as alterações são recalculadas sob demanda e registradas por uma pilha de desfazer e refazer. Novos tipos de objetos podem ser adicionados facilmente e podem até ser [[Scripted objects|totalmente programados em Python]].{{clear}} * [[Image:Feature4.jpg|left]] Uma '''arquitetura modular''' que permite utilizar extensões (plug-ins) para adicionar funcionalidade ao núcleo principal do aplicativo. Uma extensão pode ser tão complexa quanto um novo aplicativo programado em C ++ ou tão simples quanto um [[Power users hub/pt-br|script Python]], ou [[macros/pt-br|macro]] gravado automaticamente. Você tem acesso completo a quase qualquer parte do FreeCAD a partir do interpretador Python embutido, pode criar macros ou scripts externos, seja para realizar a [[Topological data scripting/pt-br|criação e transformação de geometrias]], a representação 2D ou 3D destas geometrias ([[scenegraph/pt-br|Grafo de cena]]) ou mesmo alterar a [[PySide/pt-br|interface do FreeCAD]].{{clear}} * [[Image:Feature5.jpg|left]] Importação e exportação de '''formatos padrão''' como [http://en.wikipedia.org/wiki/ISO_10303 STEP], [http://en.wikipedia.org/wiki/IGES IGES], [http://en.wikipedia.org/wiki/Obj OBJ], [http://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [http://en.wikipedia.org/wiki/Dxf DXF], [http://en.wikipedia.org/wiki/Svg SVG], [http://en.wikipedia.org/wiki/STL_(file_format) STL], [http://en.wikipedia.org/wiki/COLLADA DAE], [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] ou [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [http://en.wikipedia.org/wiki/NASTRAN NASTRAN], [http://en.wikipedia.org/wiki/VRML VRML] além do formato de arquivo {{FileName|[[File Format FCStd|FCStd]]}} nativo do FreeCAD. O nível de compatibilidade entre o FreeCAD e um determinado formato de arquivo pode variar, pois depende do módulo que o implementa.{{clear}} * [[Image:Feature7.jpg|left]] [[Sketcher_Workbench/pt-br|Sketcher]], um módulo de desenho com gestão integrada de restrições geométricas, para que você crie formas 2D que podem obedecer a tais restrições. As formas 2D restritas construídas com o Sketcher podem ser usadas como base para construir outros objetos em todo o FreeCAD.{{clear}} * [[Image:Feature9.jpg|left]] [[Robot_Workbench/pt-br|Simulação de robôs]], módulo que permite estudar os movimentos dos robôs em um ambiente gráfico.{{clear}} * [[Image:Feature8.jpg|left]] [[TechDraw_Workbench/pt-br|Techdraw]], módulo para geração de pranchas com documentação técnica, com ferramentas para a exibição de vistas detalhadas e vistas de corte, recursos para o dimensionamento dos objetos, entre outros, permitindo gerar vistas 2D a partir de modelos 3D. Com o Techdraw é possível exportar as pranchas em arquivos SVG ou PDF. O módulo [[Drawing_Workbench/pt-br|Drawing]], mais antigo, com poucos comandos em interface gráfica, mas com poderosas funções Python, também está disponível.{{clear}} * [[Image:Feature-raytracing.jpg|left]] [[Raytracing_Workbench/pt-br|Raytracing]], módulo que serve para exportar objetos 3D para serem utilizados em renderizadores externos. Atualmente o Raytracing tem suporte ao [http://en.wikipedia.org/wiki/POV-Ray povray] e o [http://en.wikipedia.org/wiki/LuxRender LuxRender] e espera-se que seja estendido a outros renderizadores no futuro. {{clear}} * [[Image:Feature-arch.jpg|left]] [[Arch_Workbench/pt-br|Arch]], módulo que permite um fluxo de trabalho semelhante ao da bancada [http://en.wikipedia.org/wiki/Building_Information_Modeling BIM], e que tem compatibilidade com o padrão[http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]. {{clear}} * [[Image:Feature-CAM.jpg|left]] [[Path_Workbench/pt-br|Path]], módulo dedicado à usinagem mecânica para [https://en.wikipedia.org/wiki/Computer-aided_manufacturing CAM fabricação assistida por computador]. Usando o módulo Path você pode emitir, exibir e ajustar o [http://en.wikipedia.org/wiki/G-code G-code] usado para controlar a máquina a ser utilizada.{{clear}} * [[Image:Feature_spreadsheet.png|left]] [[Spreadsheet_Workbench/pt-br|Spreadsheet]] e [[Expressions/pt-br|Expressions]], módulos que podem ser usados para desenvolver modelos baseados em fórmulas e organizar os dados dos modelos em um local central.{{clear}} |
| h română (ro) | !!FUZZY!!* [[Image:Feature1.jpg|left]] O tehnologie completă bazată pe '''nucleu geometric''' al [http://en.wikipedia.org/wiki/Open_CASCADE Open CASCADE] e care permite operații 3D complexe pe tipuri complexe de forme, cu suport nativ pentru concepte precum '''[http://fr.wikipedia.org/wiki/BRep BRep]''', curbe '''[http://fr.wikipedia.org/wiki/Nurbs Nurbs]''' si suprafețe, o gama largă de entitățti geometrice, operatiuni logice, suport pentru integrat pentru formatele [http://fr.wikipedia.org/wiki/Standard_pour_l%27%C3%A9change_de_donn%C3%A9es_de_produit STEP] și [http://fr.wikipedia.org/wiki/IGES IGES]. {{clear}} * [[Image:Feature3.jpg|left]]Un '''model parametric''' complet. Toate obiectele FreeCAD sunt parametrizate, ceea ce inseamna ca forma lor poate depinde de [[Property/ro|proprietati]] sau de alte obiecte, cu modificarile calculate la cerere si inregistrate in stiva undo/redo. Tipuri noi de obiecte pot fi adaugate cu usurinta si sunt [[Scripted objects/ro|programabile in Python]].{{clear}} * [[Image:Feature4.jpg|left]] '''Arhitectura modulara''' ce permite modulelor sa adauge noi functionalitati la pachetul de baza. Extensiile pot fi complexe, precum intregi aplicatii programate in C++, sau simple, precum [[Power users hub/ro|script-uri Python]] sau [[macros/ro|macroinstructiuni]] inregistrate automat. Utilizatorul are control complet asupra interpretorului '''Python''' continut, asupra macroinstructiunilor si script-urilor externe si asupra componentelor FreeCAD: [[Topological data scripting/ro|crearea si transformarea geometriei]], representarea in 2D sau 3D a geometriei sub forma de [[scenegraph/ro|grafice]] sau chiar [[PySide/ro|interfata grafica]]{{clear}} * [[Image:Feature5.jpg|left]] Importul si exportul in '''formate standard''' precum [http://en.wikipedia.org/wiki/ISO_10303 STEP], [http://en.wikipedia.org/wiki/IGES IGES], [http://en.wikipedia.org/wiki/Obj OBJ], [http://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [http://en.wikipedia.org/wiki/Dxf DXF], [http://en.wikipedia.org/wiki/Svg SVG], [http://en.wikipedia.org/wiki/STL_(file_format) STL], [http://en.wikipedia.org/wiki/COLLADA DAE], [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] sau [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [http://en.wikipedia.org/wiki/NASTRAN NASTRAN], [http://en.wikipedia.org/wiki/VRML VRML] pe langa [[Fcstd file format/ro|formatul nativ FreeCAD]]. Nivelul de compatibilitate dintre FreeCAD si un format dat variaza, depinzand de modulul care implementeaza functionalitatea.{{clear}} * [[Image:Feature7.jpg|left]] [[Sketcher Workbench/ro|Editarea schitelor]] cu constrangeri, permitand schitarea formelor 2D constranse ca si geometrie. E posibila crearea catorva tipuri de geometrii constranse precum si imbinarea lor.{{clear}} * [[Image:Feature9.jpg|left]] [[Robot Workbench|Simulator de roboti]] ce permite studierea miscarilor robotilor. Modulul are deja o interfata grafica extinsa, permitand realizarea intregului flux in mod grafic.{{clear}} * [[Image:Feature8.jpg|left]] [[Drawing Workbench|Foi de desen]] ce permit crearea de vizualizari 2D ale desenului 3D pe o foaie. Acest modul produce foi SVG sau PDF gata de a fi exportate. Acest modul este in lucru, dar are deja implementata functionalitatea Python.{{clear}} * [[Image:Feature-raytracing.jpg|left]] Modulul de [[Raytracing Workbench/ro|Afisare]] poate exporta obiectele 3D pentru a fi folosite de programe externe. Singurul format suportat in prezent este [http://en.wikipedia.org/wiki/POV-Ray povray], dar alte formate sunt planificate pentru viitor.{{clear}} * [[Image:Feature-arch.jpg|left]] Modulul [[Arch Workbench|Arhitectural]] permite lucrul folosing pasii [http://en.wikipedia.org/wiki/Building_Information_Modeling BIM] compatibil cu [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]. Comunitatea a dezbatut aprins detaliile modlului in [http://forum.freecad.org/viewtopic.php?f=10&t=821 forum].{{clear}} |
| h русский (ru) | * [[Image:Feature1.jpg|left]] Полное '''геометрическое ядро''', основанное на [https://ru.wikipedia.org/wiki/Open_CASCADE_Technology OpenCasCade], позволяет производить сложные трёхмерные операции над сложными типами форм, со встроенной поддержкой таких понятий, как: [https://ru.wikipedia.org/wiki/Граничное_представление Граничное представление] (boundary representation, BREP), Кривые и поверхности [https://ru.wikipedia.org/wiki/NURBS неоднородных рациональных B-сплайнов] (Non-uniform rational basis spline, NURBS), широкий спектр геометрических объектов, булевы операции над фигурами или [http://en.wikipedia.org/wiki/Fillet_%28mechanics%29 сопряжения] и встроенную поддержку форматов [https://ru.wikipedia.org/wiki/STEP_(стандарт) STEP] и [https://ru.wikipedia.org/wiki/IGES IGES]. {{clear}} * [[Image:Feature3.jpg|left]] '''Полностью параметрическая''' модель данных. Объекты FreeCAD параметрические в основе, то есть их форма может полностью зависеть от [[Property/ru|параметров]] или даже зависеть от других объектов, все изменения пересчитываются по запросу, и записываются в стеке отмен-возвратов. Легко могут быть добавлены новые объекты, которые могут быть даже [[Scripted_objects/ru|написаны на python]].{{clear}} * [[Image:Feature4.jpg|left]] '''Модульная архитектура''', позволяющая добавлять функциональность через плагины (модули и верстаки). Эти расширения могут быть комплексными и программироваться на C++, или простыми как [[Power_users_hub/ru|скрипты Python]] или записываемые самостоятельно [[macros/ru|макросы]]. У Вас есть полный доступ из встроенного интерпретатора '''Python''', макросов или внешних сценариев к практически любой части FreeCAD, позволяя [[Topological_data_scripting/ru|создавать и изменять геометрию]], двумерное и объёмное представление этой геометрии ([[scenegraph/ru|scenegraph]]) или даже [[PySide/ru|интерфейс FreeCAD]]. {{clear}} * [[Image:Feature5.jpg|left]] Импорт/экспорт в '''стандартные форматы''', такие как: [https://ru.wikipedia.org/wiki/STEP_(стандарт) STEP], [https://ru.wikipedia.org/wiki/IGES IGES], [https://ru.wikipedia.org/wiki/Obj OBJ], [https://ru.wikipedia.org/wiki/STL_(формат файла) STL], [https://ru.wikipedia.org/wiki/DXF DXF], [https://ru.wikipedia.org/wiki/SVG SVG],[https://ru.wikipedia.org/wiki/Universal_3D U3D], [https://ru.wikipedia.org/wiki/COLLADA DAE], [https://ru.wikipedia.org/wiki/Industry_Foundation_Classes IFC], [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://ru.wikipedia.org/wiki/NX_CAE NASTRAN], [https://ru.wikipedia.org/wiki/VRML VRML], кроме собственного формата FreeCAD {{FileName|[[Fcstd_file_format/ru|Fcstd]]}}. Уровень совместимости между FreeCAD и данными форматами может различаться, поскольку зависит от поддерживающего их верстака.{{clear}} * [[Image:Feature7.jpg|left]] Модуль [[Sketcher_Workbench/ru|эскизирования]] со встроенным вычислителем ограничений, позволяющий создавать эскизы с геометрически ограниченными двухмерными формами. Создаваемые с помощью Sketcher двумерные геометрические фигуры с ограничениями могут использоваться как база для построения других объектов FreeCAD. {{clear}} * [[Image:Feature8.jpg|left]] [[TechDraw_Workbench|Рабочая среда для создания технических чертежей]] с возможностями построения детализированных видов, поперечных сечений, нанесения размеров и другими функциями, позволяющая создавать 2D-виды существующих 3D-моделей; генерация файлов для экспорта в форматах SVG или PDF.{{clear}} * [[Image:Feature-arch.jpg|left]] Модуль [[BIM_Workbench/ru|архитектуры]] позволяет работать по процессу [http://ru.wikipedia.org/wiki/BIM информационного моделирования здания] (Building Information Modeling, BIM), при совместимости со спецификацией [http://ru.wikipedia.org/wiki/Industry_Foundation_Classes IFC]. {{clear}} * [[Image:Feature-CAM.jpg|left]] [[CAM_Workbench|Модуль CAM]] посвящён [https://ru.wikipedia.org/wiki/CAM автоматизации механической обработки] (Computer-aided manufacturing, CAM) и может выводить, показывать и настраивать [https://ru.wikipedia.org/wiki/G-code G-код].{{clear}} * [[Image:Feature_spreadsheet.png|left]] Интегрированный обработчик [[Spreadsheet_Workbench/ru|электронных таблиц]] и [[Expressions/ru|выражений]], который может использоваться для управления моделями через формулы и централизованной организации данных моделей.{{clear}} |
| h svenska (sv) | !!FUZZY!!* [[Image:Feature1.jpg|left]] En komplett [http://en.wikipedia.org/wiki/Open_CASCADE OpenCasCade]-baserad '''geometrikärna''' som tillåter komplexa 3D operationer på komplexa formtyper, och stöder nativt koncept som brep, nurbs, booleska operationer eller fasningar {{clear}} * [[Image:Feature3.jpg|left]] En full '''parametrisk modell''' som tillåter valfri typ av parameter-drivna anpassade objekt, som även [[Scripted objects/sv|helt kan programmeras i python]] {{clear}} * [[Image:Feature4.jpg|left]] Komplett åtkomst från den inbyggda '''python''' tolken, makron eller externa skript till nästan alla delar i FreeCAD, so till exempel [[Topological data scripting/sv|skapande och omvandling av geometri]], 2D eller 3D representationen av den geometrin ([[scenegraph/sv|Scengrafen]]) eller även [[PySide/sv|FreeCAD gränssnittet]] {{clear}} * [[Image:Feature5.jpg|left]] Import/export till '''standard format''' som [http://en.wikipedia.org/wiki/ISO_10303 STEP], [http://en.wikipedia.org/wiki/IGES IGES], [http://sv.wikipedia.org/wiki/Obj OBJ], [http://en.wikipedia.org/wiki/Dxf DXF], [http://sv.wikipedia.org/wiki/Svg SVG] [http://en.wikipedia.org/wiki/Universal_3D U3D] eller [http://en.wikipedia.org/wiki/STL_(file_format) STL]{{clear}} * [[Image:Feature7.jpg|left]] En [[Sketcher Workbench/sv|Skissare]] med begränsningslösare, som låter dig skissa geometri-begränsade 2D former. Skissare tillåter dig för tillfället att bygga flera typer av begränsad geometri, och sedan använda dem som en bas att bygga andra objekt i FreeCAD.{{clear}} * [[Image:Feature9.jpg|left]] En [[Robot Workbench/sv|Robot simulerings]] modul som tillåter dig att studera robotrörelser. Robotmodulen har redan ett utökat grafiskt gränssnitt, vilket kan användas för ett smidigt arbetsflöde. {{clear}} * [[Image:Feature8.jpg|left]] En [[Drawing Workbench/sv|Ritningsark]] modul som låter dig skapa 2D vyer på dina 3D modeler på ett ritningsark. Denna modul producerar sedan färdiga SVG eller PDF dokument. Modulen är ännu funktionsfattig, men har redan en kraftfull python-funktionalitet.{{clear}} * [[Image:Feature-raytracing.jpg|left]] En [[Raytracing Workbench/sv|Renderingsmodul]] som kan exportera 3D objekt för rendering med externa rendererare. Stödjer för närvarande endast [http://sv.wikipedia.org/wiki/POV-Ray povray], men förväntas stödja andra renderare i framtiden.{{clear}} * [[Image:Feature-arch.jpg|left]] En [[Arch Workbench/sv|Arkitektur]] modul som tillåter [http://sv.wikipedia.org/wiki/Building_Information_Modeling BIM]-likt arbetsflöde, med [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] kompatibilitet. Skapandet av arkitekturmodulen diskuteras mycket av communityn [http://forum.freecad.org/viewtopic.php?f=10&t=821 här].{{clear}} [http://en.wikipedia.org/wiki/Building_Information_Modeling BIM]-like workflow, with [http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] compatibility. The making of the Arch Workbench is heavily discussed by the community [http://forum.freecad.org/viewtopic.php?f=10&t=821 here].{{clear}} |
| h Türkçe (tr) | * [[Image:Feature1.jpg|left]] Karmaşık şekil türleri üzerinde karmaşık 3B işlemleri gerçekleştirmeye olanak tanıyan ve [https://en.wikipedia.org/wiki/Boundary_representation Sınır Temsili] (BREP), [https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline Düzensiz rasyonel taban spline] (NURBS) eğrileri ve yüzeyleri, çok çeşitli geometrik varlıklar, boole işlemleri ve [https://en.wikipedia.org/wiki/Fillet_(mekanik) yuvarlatmalar] için yerel destek sunar ve [https://en.wikipedia.org/wiki/ISO_10303 STEP] ile [https://en.wikipedia.org/wiki/IGES IGES] formatlarını yerleşik olarak destekler {{clear}} * [[Image:Feature3.jpg|left]] Tam bir ‘’'parametrik model'‘’. Tüm FreeCAD nesneleri doğal olarak parametriktir, yani şekilleri [[Özellik|özelliklere]] dayalı olabilir veya hatta diğer nesnelere bağlı olabilir. Tüm değişiklikler talep üzerine yeniden hesaplanır ve geri al/yeniden yap yığını tarafından kaydedilir. Yeni nesne türleri kolayca eklenebilir ve hatta [[Scripted_objects|Python ile tamamen programlanabilir]].{{clear}} * [[Image:Feature4.jpg|left]] Eklenti uzantılarının (modüller ve çalışma tezgahları) çekirdek uygulamaya işlevsellik eklemesine izin veren bir ‘’'modüler mimari'‘’. Bir uzantı, C++ ile programlanmış yepyeni bir uygulama kadar karmaşık veya bir [[Power_users_hub|Python betiği]] ya da kendi kaydettiğiniz bir [[Macros|makro]] kadar basit olabilir. Yerleşik ‘’'Python'‘’ yorumlayıcı, makrolar veya harici komut dosyaları aracılığıyla FreeCAD'in hemen hemen her bölümüne tam erişim hakkına sahipsiniz; ister [[Topological_data_scripting|geometri oluşturma ve dönüştürme]], ister o geometrinin 2D veya 3D gösterimi ([[Scenegraph|sahne grafiği]]) veya hatta [[PySide|FreeCAD arayüzü]] olsun. {{clear}} * [[Image:Feature5.jpg|left]] [https://en.wikipedia.org/wiki/ISO_10303 STEP], [https://en.wikipedia.org/wiki/IGES IGES], [https://en.wikipedia.org/wiki/Obj OBJ] gibi ‘’'standart formatlara'‘’ içe/dışa aktarım, [https://en.wikipedia.org/wiki/STL_%28file_format%29 STL], [https://en.wikipedia.org/wiki/Dxf DXF], [https://en.wikipedia.org/wiki/Svg SVG], [https://en.wikipedia.org/wiki/COLLADA DAE], [https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] veya [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF], [https://en.wikipedia.org/wiki/NASTRAN NASTRAN], [https://en.wikipedia.org/wiki/VRML VRML] ve FreeCAD'in kendi {{FileName|[[File Format FCStd|FCStd]]}} dosya formatı. FreeCAD ile belirli bir dosya biçimi arasındaki uyumluluk düzeyi, bunu uygulayan çalışma tezgahına bağlı olduğundan değişiklik gösterebilir.{{clear}} * [[Image:Feature7.jpg|left]] Entegre kısıtlama çözücüsüne sahip bir [[Sketcher_Workbench|Sketcher]]; bu sayede geometrik kısıtlamalı 2B şekiller çizebilirsiniz. Sketcher ile oluşturulan kısıtlamalı 2B şekiller, daha sonra FreeCAD'de diğer nesneleri oluşturmak için temel olarak kullanılabilir.{{clear}} * [[Image:Feature8.jpg|left]] Ayrıntılı görünümler, kesit görünümleri, boyutlandırma ve diğer seçeneklere sahip bir [[TechDraw_Workbench|teknik çizim çalışma tezgahı]], mevcut 3B modellerin 2B görünümlerini oluşturmanıza olanak tanır. Çalışma tezgahı daha sonra dışa aktarılmaya hazır SVG veya PDF dosyaları üretir.{{clear}} * [[Image:Feature-arch.jpg|left]] [https://en.wikipedia.org/wiki/Building_Information_Modeling Yapı Bilgi Modellemesi] (BIM) benzeri iş akışına olanak tanıyan ve [https://en.wikipedia.org/wiki/Industry_Foundation_Classes Endüstri Temel Sınıfları] (IFC) ile uyumlu bir [[BIM_Workbench|BIM Çalışma Ortamı]].{{clear}} * [[Image:Feature-CAM.jpg|left]] [https://en.wikipedia.org/wiki/Computer-aided_manufacturing Bilgisayar Destekli İmalat] (CAM) için mekanik işlemeye özel bir [[CAM_Workbench|CAM Workbench]]. CAM Workbench'i kullanarak, hedef makineyi kontrol etmek için kullanılan [https://en.wikipedia.org/wiki/G-code G kodunu] çıktı alabilir, görüntüleyebilir ve ayarlayabilirsiniz.{{clear}} * [[Image:Feature_spreadsheet.png|left]] Formül tabanlı modelleri çalıştırmak ve model verilerini merkezi bir konumda düzenlemek için kullanılabilen bir [[Spreadsheet_Workbench|Entegre Elektronik Tablo]] ve bir [[Expressions|ifade ayrıştırıcı]].{{clear}} |
| h 中文 (zh) | * [[Image:Feature1.jpg|left]]完全基于[http://en.wikipedia.org/wiki/Open_CASCADE 开源CASCADE技术] 的'''几何内核''',允许在复杂形状上进行复杂的3D操作,原生支持[https://en.wikipedia.org/wiki/Boundary_representation 边界表示法](brep)、[https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline 非均匀有理B样条](nurbs)曲线和曲面、广泛的几何实体、布尔运算、[https://en.wikipedia.org/wiki/Fillet_(mechanics)倒圆角],并且内建支持[https://en.wikipedia.org/wiki/ISO_10303 STEP]和[https://en.wikipedia.org/wiki/IGES IGES]格式。{{clear}} * [[Image:Feature3.jpg|left]]完全'''参数化建模'''。所有FreeCAD对象都是原生参数化的,这意味着它们的形状可以基于[[Property|属性]],甚至基于其他对象。所有更改都会根据需要重新计算,并由撤消/重做堆栈记录。添加新对象类型非常容易,甚至可以[[Scripted objects|全部用python编程]]。{{clear}} * [[Image:Feature4.jpg|left]]'''模块化架构''',允许向核心应用程序插入扩展(模块)以添加功能。扩展可以复杂地像完整地C++程序,也可以简单地像[[Power users hub |Python脚本]]或录制的[[macros|宏]]。您可以从内置的'''Python'''解释器,宏脚本或外部脚本中完全操作FreeCAD的任何部分,无论它是[[Topological data scripting|几何体创建与变换]],几何的2D或3D显示([[scenegraph|场景图]])还是[[PySide|FreeCAD界面]]。 {{clear}} * [[Image:Feature5.jpg | left]]导入/导出,除了FreeCAD原生文件格式 {{FileName|[[File Format FCStd|FCStd]]}}之外还有一些'''标准格式''',例如[http://en.wikipedia.org/wiki/ISO_10303 STEP]、[http://en.wikipedia.org/wiki/IGES IGES],[http://en.wikipedia.org/wiki/Obj OBJ]、[http://en.wikipedia.org/wiki/STL_%28file_format%29 STL]、[http://en.wikipedia.org/wiki/Dxf DXF]、[http://en.wikipedia.org/wiki/Svg SVG]、[http://en.wikipedia.org/wiki/STL_(file_format) STL]、[http://en.wikipedia.org/wiki/COLLADA DAE]、[http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]或者[http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF]、[http://en.wikipedia.org/wiki/NASTRAN NASTRAN],、[http://en.wikipedia.org/wiki/VRML VRML]。 FreeCAD与给定文件格式之间的兼容程度可能会有所不同,因为它取决于实现它的模块。{{clear}} * [[Image:Feature7.jpg | left]]具有集成约束求解器的[[Sketcher_Workbench |草图工作台]],允许您绘制具有几何约束的2D形状。然后,使用草图工作台构建的受约束2D形状可用作构建FreeCAD中其他对象的基础。{{clear}} * [[Image:Feature9.jpg | left]] [[Robot_Workbench |机器人工仿真]]模块,可让您在图形环境中研究机器人的运动。{{clear}} * [[Image:Feature8.jpg | left]][[TechDraw_Workbench |技术制图模块]],包含详细视图,横截面视图,尺寸标注等选项,允许您生成现有3D模型的2D视图。模块进一步可生成可导出的SVG或PDF文件。较旧的[[Drawing_Workbench |绘图模块]]具有不多的的Gui命令,但却有强大的Python功能。{{clear}} * [[Image:Feature-raytracing.jpg | left]]一个[[Raytracing_Workbench |渲染]]模块,可以导出3D对象以便使用外部渲染器进行渲染。它目前仅支持[http://en.wikipedia.org/wiki/POV-Ray povray]和[http://en.wikipedia.org/wiki/LuxRender LuxRender],但预计今后将扩展到其他渲染器。{{clear}} * [[Image:Feature-arch.jpg | left]] [[Arch_Workbench |建筑]]模块,可实现兼容[http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC]的[http://en.wikipedia.org/wiki/Building_Information_Modeling 建筑信息模型](BIM)类似的工作流。{{clear}} * [[Image:Feature-CAM.jpg | left]] [[Path_Workbench |刀路模块]]专门用于[https://en.wikipedia.org/wiki/Computer-aided_manufacturing 计算机辅助制造](CAM)。使用刀路模块,您可以输出,显示和调整用于控制目标机器的[http://en.wikipedia.org/wiki/G-code G代码]。{{clear}} * [[Image:Feature_spreadsheet.png | left]] [[Spreadsheet_Workbench |集成电子表格]]和[[Expressions|表达式解析器]],可用于驱动基于公式的模型创建并在集中的位置组织模型数据。 {{clear}} |
| h 中文(中国大陆) (zh-cn) | * [[Image:Feature1.jpg|left]] 基于完整的 [https://en.wikipedia.org/wiki/Open_CASCADE Open CASCADE 技术]的'''几何内核''',支持对复杂形状类型进行复杂的3D操作,原生支持 [https://en.wikipedia.org/wiki/Boundary_representation 边界表示] (BREP)、[https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline 非均匀有理B样条] (NURBS) 曲线和曲面、广泛的几何实体、布尔运算和[https://en.wikipedia.org/wiki/Fillet_(mechanics) 圆角],并内置支持 [https://en.wikipedia.org/wiki/ISO_10303 STEP] 和 [https://en.wikipedia.org/wiki/IGES IGES] 格式 {{clear}} * [[Image:Feature3.jpg|left]] 完整的'''参数化模型'''。所有FreeCAD对象本质上都是参数化的,意味着它们的形状可以基于[[Property/zh-cn|属性]],甚至依赖于其他对象。所有更改都会按需重新计算,并由撤销/重做栈记录。可以轻松添加新的对象类型,甚至可以[[Scripted_objects/zh-cn|完全用Python编程实现]]。{{clear}} * [[Image:Feature4.jpg|left]] '''模块化架构'''允许通过插件扩展(模块和工作台)为核心应用程序添加功能。一个扩展可以复杂到如同一个用C++编写的全新应用程序,也可以简单到是一个[[Power_users_hub|Python脚本]]或自录制的[[Macros/zh-cn|宏]]。您可以通过内置的'''Python'''解释器、宏或外部脚本完全访问FreeCAD的几乎任何部分,无论是[[Topological_data_scripting|几何创建与变换]]、该几何体的2D或3D表示([[Scenegraph/zh-cn|场景图]]),甚至是[[PySide/zh-cn|FreeCAD界面]]。{{clear}} * [[Image:Feature5.jpg|left]] 支持导入/导出'''标准格式''',如 [https://en.wikipedia.org/wiki/ISO_10303 STEP]、[https://en.wikipedia.org/wiki/IGES IGES]、[https://en.wikipedia.org/wiki/Obj OBJ]、[https://en.wikipedia.org/wiki/STL_%28file_format%29 STL]、[https://en.wikipedia.org/wiki/Dxf DXF]、[https://en.wikipedia.org/wiki/Svg SVG]、[https://en.wikipedia.org/wiki/COLLADA DAE]、[https://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC] 或 [http://people.sc.fsu.edu/~jburkardt/data/off/off.html OFF]、[https://en.wikipedia.org/wiki/NASTRAN NASTRAN]、[https://en.wikipedia.org/wiki/VRML VRML],此外还支持FreeCAD原生的 {{FileName|[[File Format FCStd|FCStd]]}} 文件格式。FreeCAD与给定文件格式之间的兼容性水平可能有所不同,因为它取决于实现该格式的工作台。{{clear}} * [[Image:Feature7.jpg|left]] 一个带有集成约束求解器的[[Sketcher_Workbench/zh-cn|草图工作台]],允许您绘制几何约束的2D形状。用草图工作台构建的约束2D形状随后可用作在整个FreeCAD中构建其他对象的基础。{{clear}} * [[Image:Feature8.jpg|left]] 一个[[TechDraw_Workbench/zh-cn|技术绘图工作台]],提供细节视图、剖面视图、尺寸标注等选项,允许您从现有的3D模型生成2D视图。该工作台可生成可供导出的SVG或PDF文件。{{clear}} * [[Image:Feature-arch.jpg|left]] 一个[[BIM_Workbench/zh-cn|BIM工作台]],支持类似[https://en.wikipedia.org/wiki/Building_Information_Modeling 建筑信息模型] (BIM) 的工作流程,并与[https://en.wikipedia.org/wiki/Industry_Foundation_Classes 工业基础类] (IFC) 兼容。{{clear}} * [[Image:Feature-CAM.jpg|left]] 一个[[CAM_Workbench/zh-cn|CAM工作台]],专用于[https://en.wikipedia.org/wiki/Computer-aided_manufacturing 计算机辅助制造] (CAM) 的机械加工。使用CAM工作台,您可以输出、显示和调整用于控制目标机器的[https://en.wikipedia.org/wiki/G-code G代码]。{{clear}} * [[Image:Feature_spreadsheet.png|left]] 一个[[Spreadsheet_Workbench/zh-cn|集成电子表格]]和一个[[Expressions/zh-cn|表达式解析器]],可用于驱动基于公式的模型,并将模型数据集中组织在一个位置。{{clear}} |