Translations:Feature list/5/zh: Difference between revisions

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* [[Image:Feature1.jpg | left]]完整的基于[http://en.wikipedia.org/wiki/Open_CASCADE开源CASCADE技术] - 基于''''几何内核'''允许复杂形状的复杂3D操作类型,本地支持[https://en.wikipedia.org/wiki/Boundary_representation 边界表示](brep)等概念,[https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline 非统一理性基础样条](nurbs)曲线和曲面,各种几何实体,布尔运算和[https://en.wikipedia.org/wiki/Fillet_(mechanics)圆角],以及[https://en.wikipedia.org/wiki/ISO_10303 STEP]和[https://en.wikipedia.org/wiki/IGES IGES]格式{{clear}}
* [[Image:Feature1.jpg|left]]完整的基于[http://en.wikipedia.org/wiki/Open_CASCADE 开源CASCADE技术] - 基于'''几何内核'''允许复杂形状的复杂3D操作类型,本地支持[https://en.wikipedia.org/wiki/Boundary_representation 边界表示](brep)等概念,[https://en.wikipedia.org/wiki/Non-uniform_rational_B-spline 非统一理性基础样条](nurbs)曲线和曲面,各种几何实体,布尔运算和[https://en.wikipedia.org/wiki/Fillet_(mechanics)圆角],以及[https://en.wikipedia.org/wiki/ISO_10303 STEP]和[https://en.wikipedia.org/wiki/IGES IGES]格式{{clear}}
* [[Image:Feature3.jpg | left]]一个完整的'''参数模型'''。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]],甚至取决于其他对象。所有更改都会根据需要重新计算,并由撤消/重做堆栈记录。可以轻松添加新对象类型,甚至可以[[脚本对象|在Python中完全编程]]。{{clear}}
* [[Image:Feature3.jpg|left]]一个完整的'''参数模型'''。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]],甚至取决于其他对象。所有更改都会根据需要重新计算,并由撤消/重做堆栈记录。可以轻松添加新对象类型,甚至可以[[脚本对象|在Python中完全编程]]。{{clear}}
* [[Image:Feature4.jpg | left]]一种''''模块化架构''',允许插件扩展(模块)向核心应用程序添加功能。扩展可以像在C++中编程的整个新应用程序一样复杂,也可以像[[Power users hub |Python脚本]]或录制的[[macros|宏脚本]]一样简单。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,无论是[[Topological data scripting|几何体创建和转换]],2D或3D表示几何([[scenegraph|场景]])甚至[[PySide|FreeCAD接口]] {{clear}}
* [[Image:Feature4.jpg | left]]一种'''模块化架构''',允许插件扩展(模块)向核心应用程序添加功能。扩展可以像在C++中编程的整个新应用程序一样复杂,也可以像[[Power users hub |Python脚本]]或录制的[[macros|宏脚本]]一样简单。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,无论是[[Topological data scripting|几何体创建和转换]],2D或3D表示几何([[scenegraph|场景]])甚至[[PySide|FreeCAD接口]] {{clear}}
* [[Image:Feature5.jpg | left]]导入/导出为'''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[http://people.sc.fsu.edu/~除了FreeCAD的原生之外,jburkardt / data / off / off.html OFF][http://en.wikipedia.org/wiki/NASTRAN NASTRAN][http://en.wikipedia.org/wiki/VRML VRML] [[Fcstd文件格式]]。 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:Feature5.jpg | left]]导入/导出为除FreeCAD原生文件格式 [[Fcstd file format|Fcstd]]之外的'''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[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 | Sketcher]],允许您绘制几何约束的2D形状。然后,使用“草绘器”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:Feature7.jpg | left]]具有集成约束求解器的[[Sketcher Workbench |草图功能]],允许您绘制具有几何约束的2D形状。然后,使用“草”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]] [[机器人工作台|机器人模拟]]模块,可让您在图形环境中研究机器人的运动。{{clear}}
* [[Image:Feature9.jpg | left]] [[Robot Workbench|机器人模拟]]模块,可让您在图形环境中研究机器人的运动。{{clear}}
* [[Image:Feature8.jpg | left]]一个[[TechDraw_Module |技术图模块]],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。然后,该模块生成可立即导出的SVG或PDF文件。较旧的[[绘图模块|绘图模块]]具有稀疏的Gui命令,但也存在强大的Python功能。{{clear}}
* [[Image:Feature8.jpg | left]][[TechDraw_Module |技术图模块]],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。然后,该模块生成可立即导出的SVG或PDF文件。较旧的[[Drawing Module|绘图模块]]具有不多的的Gui命令,但也存在强大的Python功能。{{clear}}
* [[Image:Feature-raytracing.jpg | left]]一个[[光线跟踪模块|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],但预计将扩展到其他渲染器未来。{{clear}}
* [[Image:Feature-raytracing.jpg | left]]一个[[Raytracing Module|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 Module | Architecture]]模块,允许[http://en.wikipedia.org/wiki/Building_Information_Modeling建筑信息模型](BIM)工作流程,[http://en.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes](IFC)兼容性。{{clear}}
* [[Image:Feature-arch.jpg | left]] [[Arch Module |建筑]]模块,可实现类似兼容[http://en.wikipedia.org/wiki/Industry_Foundation_Classes IFC][http://en.wikipedia.org/wiki/Building_Information_Modeling 建筑信息模型](BIM)工作流。{{clear}}
* [[Image:Feature-CAM.jpg | left]] [[Path Workbench |路模块]]专门用于[https://en.wikipedia.org/wiki/Computer-aided_manufacturing计算机辅助制造]的机械加工( CAM)。使用Path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-CAM.jpg | left]] [[Path Workbench |路模块]]专门用于[https://en.wikipedia.org/wiki/Computer-aided_manufacturing 计算机辅助制造]的机械加工(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[[表达式|表达式解析器]],可用于驱动基于公式的模型并在中位置组织模型数据。 {{明确}}
* [[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位置组织模型数据。 {{clear}}

Revision as of 09:47, 19 February 2019

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Message definition (Feature list)
* [[Image:Feature1.jpg|left]] A complete [http://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) 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 [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/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] 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 module 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 module]] with options for detail views, cross sectional views, dimensioning and others, allowing you to generate 2D views of existing 3D models. The module then produces ready-to-export SVG or PDF files.{{clear}}
* [[Image:Feature-arch.jpg|left]] An [[Arch_Workbench|Architecture]] module that allows [http://en.wikipedia.org/wiki/Building_Information_Modeling Building Information Modeling] (BIM)-like workflow, with [http://en.wikipedia.org/wiki/Industry_Foundation_Classes Industry Foundation Classes] (IFC) compatibility.{{clear}}
* [[Image:Feature-CAM.jpg|left]] A [[Path_Workbench|Path module]] dedicated to mechanical machining for [https://en.wikipedia.org/wiki/Computer-aided_manufacturing Computer Aided Manufacturing] (CAM). Using the Path module you may output, display and adjust the [http://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}}
  • 完整的基于开源CASCADE技术 - 基于几何内核允许复杂形状的复杂3D操作类型,本地支持边界表示(brep)等概念,非统一理性基础样条(nurbs)曲线和曲面,各种几何实体,布尔运算和[1],以及STEPIGES格式
  • 一个完整的参数模型。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属性,甚至取决于其他对象。所有更改都会根据需要重新计算,并由撤消/重做堆栈记录。可以轻松添加新对象类型,甚至可以在Python中完全编程
  • 一种模块化架构,允许插件扩展(模块)向核心应用程序添加功能。扩展可以像在C++中编程的整个新应用程序一样复杂,也可以像Python脚本或录制的宏脚本一样简单。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,无论是几何体创建和转换,2D或3D表示几何(场景)甚至FreeCAD接口
  • 导入/导出为除FreeCAD原生文件格式 Fcstd之外的标准格式,例如STEPIGESOBJSTLDXFSVGSTL, DAE, IFC或者OFF, NASTRAN, 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。
  • 具有集成约束求解器的草图功能,允许您绘制具有几何约束的2D形状。然后,使用“草图”构建的受约束2D形状可用作构建FreeCAD中其他对象的基础。
  • 机器人模拟模块,可让您在图形环境中研究机器人的运动。
  • 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。然后,该模块生成可立即导出的SVG或PDF文件。较旧的绘图模块具有不多的的Gui命令,但也存在强大的Python功能。
  • 一个渲染模块,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povrayLuxRender,但预计今后将扩展到其他渲染器。
  • 建筑模块,可实现类似兼容IFC建筑信息模型(BIM)工作流。
  • 刀路模块专门用于计算机辅助制造的机械加工(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G代码
  • 集成电子表格表达式解析器,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。