6 @htmlonly<center>@endhtmlonly
7 @image html /resources/occt_logo.png
8 @image latex /resources/occt_logo.png
9 @htmlonly</center>@endhtmlonly
11 @section OCCT_OVW_SECTION_1 Welcome
13 Welcome to Open CASCADE Technology (OCCT), a software development platform
14 providing services for 3D surface and solid modeling, CAD data exchange, and
15 visualization. Most of OCCT functionality is available in the form of C++
16 libraries. OCCT can be best applied in development of software dealing with 3D
17 modeling (CAD), manufacturing / measuring (CAM) or numerical simulation (CAE).
19 @section OCCT_OVW_SECTION_2 Copyrights
21 Open CASCADE Technology and all materials, including this documentation, is
22 Copyright (c) 1999-2015 by OPEN CASCADE S.A.S. All rights reserved.
24 @htmlonly<center>@endhtmlonly
25 http://www.opencascade.com
26 @image html /resources/occ_logo.png
27 @image latex /resources/occ_logo.png
28 @htmlonly</center>@endhtmlonly
33 Open CASCADE Technology is free software; you can redistribute it and / or
34 modify it under the terms of the
35 @ref license_lgpl_21 "GNU Lesser General Public License (LGPL) version 2.1",
36 with additional @ref occt_lgpl_exception "exception".
38 Alternatively, Open CASCADE Technology may be used under the terms of Open
39 CASCADE commercial license or contractual agreement.
41 Note that Open CASCADE Technology is provided on an "AS IS" basis, WITHOUT
42 WARRANTY OF ANY KIND. The entire risk related to any use of the OCCT code and
43 materials is on you. See the @ref occt_public_license "license" text for formal
47 ----------------------
49 You are hereby informed that all software is a property of its respective authors and is protected by
50 international and domestic laws on intellectual property and trademarks.
51 Should you need further information, please directly contact the authors.
53 **CAS.CADE** and **Open CASCADE** are registered trademarks of
56 **Linux** is a registered trademark of Linus Torvalds.
58 **Windows** is a registered trademark of Microsoft Corporation in the United States and other countries.
60 **Mac** and the Mac logo are trademarks of Apple Inc., registered in the U.S. and other countries.
65 The following parties are acknowledged for producing tools which are used within
66 Open CASCADE Technology libraries or for release preparation.
68 You are hereby informed that all rights to the software listed below belong to its respective
69 authors and such software may not be freely available and/or be free of charge for any kind
70 of use or purpose. We strongly recommend that you carefully read the license of these products
71 and, in case you need any further information, directly contact their authors.
73 **Qt** is a cross-platform application framework that is widely used for developing application software
74 with graphical user interface (GUI). Qt is free and open source software distributed under
75 the terms of the GNU Lesser General Public License. In OCCT Qt is used for programming samples.
76 If you need further information on Qt, please, refer to Qt Homepage (http://qt.digia.com).
78 **Tcl** is a high-level programming language. Tk is a graphical user interface (GUI) toolkit,
79 with buttons, menus, listboxes, scrollbars, and so on. Taken together Tcl and Tk provide a solution
80 to develop cross-platform graphical user interfaces with a native look and feel. Tcl/Tk is under copyright by
81 Scriptics Corp., Sun Microsystems, and other companies. However, Tcl/Tk is an open source, and
82 the copyright allows you to use, modify, and redistribute Tcl/Tk for any purpose, without an
83 explicit license agreement and without paying any license fees or royalties.
84 To use Tcl/Tk, please refer to the Licensing Terms (http://www.tcl.tk/software/tcltk/license.html).
86 **Robert Boehne** has developed **GNU Autoconf**, **Automake** and **Libtool** scripts and makefiles
87 for the Open CASCADE project http://sourceforge.net/projects/autoopencas/,
88 which became an initial groundwork for the build scripts based on respective GNU tools
89 (autoconf, automake and libtool) in Open CASCADE Technology version 4.0.
90 These scripts are now maintained by the OPEN CASCADE company.
92 **GL2PS** is developed by Christophe Geuzaine and others. It is optionally used by OCCT to
93 export content of OpenGL scene to vector graphics formats (PS, PDF, EMF, SVG).
94 The library is licensed under GL2PS LICENSE http://www.geuz.org/gl2ps/COPYING.GL2PS Version 2, November 2003.
96 **FreeType 2** is developed by Antoine Leca, David Turner, Werner Lemberg and others.
97 It is a software font engine that is designed to be small, efficient, highly customizable and
98 portable while capable of producing high-quality output (glyph images). This product
99 can be used in graphic libraries, display servers, font conversion tools,
100 text image generation tools, and many other products.
102 FreeType 2 is released under two open-source licenses: BSD-like FreeType License and the GPL.
104 **Intel(R) Threading Building Blocks (TBB)** offers a rich and complete approach to expressing parallelism in a C++ program.
105 It is a library that helps you to take advantage of multi-core processor performance without having to be a threading expert.
106 Threading Building Blocks is not just a threads-replacement library. It represents a higher-level, task-based parallelism that
107 abstracts platform details and threading mechanisms for scalability and performance.
108 TBB is available under GPLv2 license with the runtime exception.
110 Open CASCADE Technology WOK module on Windows also makes use of LGPL-licensed C routines **regexp**
111 and **getopt**, taken from GNU C library.
113 **OpenGL** is an industry standard API for 3D graphics used by OCCT for
114 implementation of 3D viewer. OpenGL specification is developed by the
115 Khronos group, http://www.khronos.org/opengl/. OCCT code includes header
116 file *glext.h* obtained from Khronos web site.
118 **VTK** - The **Visualization Toolkit (VTK)** is an open-source, freely available software system for 3D computer graphics, image processing and visualization. OCCT VIS component provides adaptation functionality for visualization of OCCT topological shapes by means of VTK library. If you need further information on VTK, please, refer to VTK Homepage http://www.vtk.org/.
120 **Doxygen** developed by Dimitri van Heesch is open source documentation system for
121 C++, C, Java, Objective-C, Python, IDL, PHP and C#. This product is used in Open CASCADE Technology
122 for automatic creation of Technical Documentation from C++ header files.
123 If you need further information on Doxygen, please refer to http://www.stack.nl/~dimitri/doxygen/index.html.
125 **Graphviz** is open source graph visualization software developed by John Ellson, Emden Gansner, Yifan Hu and Arif Bilgin.
126 Graph visualization is representiation of structured information as diagrams of abstract graphs and networks.
127 This product is used together with Doxygen in Open CASCADE Technology for automatic creation of Technical Documentation
128 (generation of dependency graphs). Current versions of Graphviz are licensed on an open source
129 basis under The Eclipse Public License (EPL) (http://www.graphviz.org/License.php).
131 **Inno Setup** is a free script-driven installation system created in CodeGear Delphi by Jordan Russell.
132 In OCCT Inno Setup is used to create Installation Wizard on Windows.
133 It is licensed under Inno Setup License (http://www.jrsoftware.org/files/is/license.txt).
135 **FreeImage** is an Open Source library supporting popular graphics image formats, such as PNG, BMP, JPEG, TIFF,
136 and others used by multimedia applications. This library is developed by Hervé Drolon and Floris van den Berg.
137 FreeImage is easy to use, fast, multithreading safe, compatible with all 32-bit or 64-bit versions of Windows,
138 and cross-platform (works both with Linux and Mac OS X). FreeImage is optionally used by OCCT to work
139 with images, on conditions of the FreeImage Public License (FIPL) (http://freeimage.sourceforge.net/freeimage-license.txt).
141 **MikTEX** is up-to-date implementation of TeX/LaTeX and related programs for Windows. It is used
142 for generation of User and Developer Guides in PDF format. See http://miktex.org for information
145 Adobe Systems, Inc. provides **Adobe Reader**, which can be used to view files in Portable Document Format (PDF).
147 @section OCCT_OVW_SECTION_3 Documentation
149 OCCT documentation is provided in several forms:
151 - This overview provides general description of OCCT structure, functionality, modules, and features.
152 It is available in HTML format (generated by Doxygen) and includes User and Developer Guides.
153 The sources of this documentation are contained in **dox** subdirectory of OCCT sources
154 (plain text format is used, with mixed MarkDown / Doxygen syntax mark-up).
156 - User and Developer Guides describing in details OCCT modules and development tools are also available in
157 Adobe Portable Document Format (PDF). To read this format, you need Adobe Acrobat Reader,
158 which is a freeware and can be downloaded from the Adobe site.
160 - Full reference documentation covering all OCCT classes generated automatically by Doxygen
161 software is provided in HTML format, in a separate package.
162 Reference documentation is presented in **Modules --> Toolkits --> Packages --> Classes**
163 logic structure with cross-references to all OCCT classes and complete in-browser search by all classes.
165 See @ref occt_dev_guides__documentation "OCCT Documentation Guide" for details on OCCT documentation system.
167 **Generation of HTML documentation**
169 To generate HTML documentation from sources contained in *dox* subdirectory,
170 you need to have Tcl and Doxygen 1.8.5 (or above) installed on your system.
172 Use script **gendoc** (batch file on Windows, shell script on Linux / Mac OSX) to generate documentation.
174 To generate Overview documentation:
176 cmd> gendoc -overview
178 To generate Reference manual:
182 Run this command without arguments to get help on supported options.
184 @section OCCT_OVW_SECTION_5 Requirements
186 Open CASCADE Technology is designed to be highly portable and is known to
187 work on wide range of platforms (UNIX, Linux, Windows, Mac OS X, Android).
188 Current version is officially certified on Windows (IA-32 and x86-64),
189 Linux (x86-64), MAC OS X (x86-64) and Android (4.0.4 armv7) platforms.
191 The tables below describe the recommended hardware and software configurations
192 for which OCCT is certified to work.
194 @subsection OCCT_OVW_SECTION_5_1 Linux
196 | Operating System | Mandriva 2010, CentOS 5.5, CentOS 6.3, Fedora 17, Fedora 18, Ubuntu 13.04, Debian 6.0\* |
198 | Minimum memory | 512 MB, 1 GB recommended |
199 | Free disk space (complete installation) | 600 MB approx. |
200 | Video card | See \ref overview_req_graphics |
201 | Graphic library | OpenGL 3.3+, OpenGL ES 2.0+ |
202 | C++ | GNU gcc 4.0. - 4.7.3. |
203 | TCL (for testing tools) | Tcl/Tk 8.5 or 8.6 http://www.tcl.tk/software/tcltk/download.html |
204 | Qt (for demonstration tools) | Qt 4.8.6 http://qt-project.org/downloads |
205 | Freetype (for text rendering) | freetype-2.5.3 http://sourceforge.net/projects/freetype/files/ |
206 | FreeImage (optional, for support of common 2D graphic formats) | FreeImage 3.16.0 http://sourceforge.net/projects/freeimage/files |
207 | gl2ps (optional, for export contents of OCCT viewer to vector graphic files) | gl2ps-1.3.8 http://geuz.org/gl2ps/ |
208 | Intel TBB (optional, for multithreaded algorithms) | TBB 3.x or 4.x http://www.threadingbuildingblocks.org/ |
209 | VTK (for VTK Integration Services | VTK 6.1.0 http://www.vtk.org/VTK/resources/software.html |
211 * Debian 6.0 64 bit is a platform used for regular testing of contributions
213 @subsection OCCT_OVW_SECTION_5_2 Windows
215 | Operating System | Windows 8.1 / 7 SP1 / Vista SP2 / XP SP3 |
217 | Minimum memory | 512 MB, 1 GB recommended |
218 | Free disk space (complete installation) | 600 MB approx. |
219 | Video card | See \ref overview_req_graphics |
220 | Graphic library | OpenGL 3.3+, OpenGL ES 2.0+ |
221 | C++ | Microsoft Visual Studio: 2005 SP1, 2008 SP1, 2010 SP1 \*, 2012 Update 3, 2013 <br>Intel C++ Composer XE 2013 SP1 |
222 | TCL (for testing tools) | Tcl/Tk 8.5 or 8.6 http://www.tcl.tk/software/tcltk/download.html |
223 | Qt (for demonstration tools) | Qt 4.8.6 http://qt-project.org/downloads |
224 | Freetype (OCCT Text rendering) | freetype-2.5.3 http://sourceforge.net/projects/freetype/files/ |
225 | FreeImage (Support of common graphic formats) | FreeImage 3.16.0 http://sourceforge.net/projects/freeimage/files |
226 | gl2ps (Export contents of OCCT viewer to vector graphic file) | gl2ps-1.3.8 http://geuz.org/gl2ps/ |
227 | Intel TBB (optional, for multithreaded algorithms) | TBB 3.x or 4.x http://www.threadingbuildingblocks.org/ |
228 | VTK (for VTK Integration Services | VTK 6.1.0 http://www.vtk.org/VTK/resources/software.html |
230 * VC++ 10 64-bit is used for certification of contributions and for building
231 binary package of official release of OCCT on Windows.
233 @subsection OCCT_OVW_SECTION_5_3 MAC OS X
235 | Operating System | OS X 10.10 Yosemite / 10.9 Mavericks / 10.8 Mountain Lion / 10.7 Lion / 10.6.8 Snow Leopard |
237 | Minimum memory | 512 MB, 1 GB recommended |
238 | Free disk space (complete installation) | 600 MB approx. |
239 | C++ | XCode 3.2 or newer (4.x is recommended) |
240 | TCL (for testing tools) | Tcl/Tk 8.5 or 8.6 http://www.tcl.tk/software/tcltk/download.html |
241 | Qt (for demonstration tools) | Qt 4.8.6 http://qt-project.org/downloads |
242 | Freetype (OCCT Text rendering) | freetype-2.5.3 http://sourceforge.net/projects/freetype/files/ |
243 | FreeImage (Support of common graphic formats) | FreeImage 3.16.0 http://sourceforge.net/projects/freeimage/files |
244 | gl2ps (Export contents of OCCT viewer to vector graphic file) | gl2ps-1.3.8 http://geuz.org/gl2ps/ |
245 | Intel TBB (optional, for multithreaded algorithms) | TBB 3.x or 4.x http://www.threadingbuildingblocks.org/ |
247 @subsection OCCT_OVW_SECTION_5_4 Android
249 | Operating System | Android 4.0.4+ |
251 | Minimum memory | 512 MB, 1 GB recommended |
252 | C++ | NDK r10, GNU gcc 4.8 or newer |
253 | Qt (for demonstration tools) | Qt 5.3.2 http://qt-project.org/downloads |
254 | Freetype (for text rendering) | freetype-2.5.3 http://sourceforge.net/projects/freetype/files/ |
256 @subsection overview_req_graphics Graphic cards
258 On desktop, 3D viewer requires graphic card or software implementation supporting OpenGL 1.1 or above. OpenGL 2.1+ is highly recommended.
259 Ray tracing requires OpenGL 4.0+ or OpenGL 3.1+ with GL_ARB_texture_buffer_object_rgb32 extension. Textures within ray tracing will be available only when GL_ARB_bindless_texture extension is provided by driver.
261 On mobile platforms, OpenGL ES 2.0+ is required for 3D viewer. The ray tracing is not yet available on mobile platforms.
262 Some old hardware might be unable to execute complex GLSL programs (e.g. with high number of light sources, clipping planes).
264 The following table lists graphic cards tested to work with OCCT.
266 | Graphic card | Driver | OS | OpenGL (fixed pipeline) | OpenGL (shaders) | OpenGL (ray tracing) |
267 | ---- | ---- | ---- | :----: | :----: | :----: |
268 | NVIDIA GeForce GTX 650 | Driver 340.52, OpenGL 4.4 | Windows 7 64 bit | OK | OK | OK |
269 | AMD/ATI RadeOn HD 7870 | Driver 14.100, OpenGL 4.4 | Windows 7 64-bit | OK | OK | OK |
270 | Intel(R) HD Graphics 2500 | Driver 10.18.10.3621, OpenGL 4.0 | Windows 7 64 bit | OK | OK | limited (no textures) |
271 | RadeOn 9600 | OpenGL 2.1.8454 | Windows XP 32-bit | OK | bad | unsupported by hardware |
272 | NVIDIA GeForce 6600 GT | OpenGL 2.1 | Windows XP 32-bit | OK | OK | unsupported by hardware |
273 | NVIDIA GeForce 320 | N/A | Mac OS X 10.6 / OS X 10.10 | OK | OK | not yet supported by OCCT |
274 | Apple software OpenGL | N/A | Mac OS X 10.6 / OS X 10.10 | OK | OK | N/A |
275 | Mesa 10.2.4 \* | "Gallium 0.4 on llvmpipe (LLVM 3.4, 256 bits)" OpenGL 3.0 | Windows 7 64 bit | OK | OK | unsupported by software |
277 * Mesa implementation of OpenGL is used for certification testing of OCCT
279 @section OCCT_OVW_SECTION_4 Installation
281 In most cases you need to rebuild OCCT on your platform (OS, compiler) before
282 using it in your project, to ensure binary compatibility.
283 See @ref occt_dev_guides__building for instructions on
284 building OCCT from sources on supported platforms.
286 @subsection OCCT_OVW_SECTION_4_1 Using Windows installer
288 On Windows Open CASCADE Technology can be installed with binaries precompiled by
289 Visual C++ 2010 with installation procedure.
293 If you have a previous version of OCCT installed on your station,
294 and you do not plan to use it along with the new version, you might want to uninstall
295 the previous version (using Control Panel, Add/Remove Programs) before
296 the installation of this new version, to avoid possible problems
297 (conflict of system variables, paths, etc).
299 **Attention:** For full installation OCCT requires approximately 650 Mb of disk space,
300 but during the installation process you will need 1,2 Gb of free disk space.
302 OCCT installation with reference documentation requires 1,4 Gb on disk.
304 * Download the OCCT installer from OPEN CASCADE web site using the link. you have been provided
305 * Launch the installer and follow the instructions.
307 The includes and binaries of third-party libraries necessary for building and launching
308 OCCT are included into binary distribution (built with Visual C++ 2010).
309 When the installation is complete, you will find the directories for 3rd party products
310 (some might be absent in case of custom installation) and the main **OCCT** directory:
312 @image html /overview/images/overview_3rdparty.png
313 @image latex /overview/images/overview_3rdparty.png
315 The contents of the OCCT-6.9.0 directory (called further "OCCT root", or $CASROOT) are as follows:
317 @image html /overview/images/overview_installation.png "The directory tree"
318 @image latex /overview/images/overview_installation.png "The directory tree"
320 * **adm** This folder contains administration files, which allow rebuilding OCCT;
321 * **adm/cmake** This folder contains files of CMake building procedure;
322 * **adm/msvc** This folder contains Visual Studio projects for Visual C++ 2005, 2008, 2010, 2012 and 2013 which allow rebuilding OCCT under Windows platform in 32 and 64-bit mode;
323 * **data** This folder contains CAD files in different formats, which can be used to test the OCCT functionality;
324 * **doc** This folder contains OCCT documentation in HTML and PDF format;
325 * **dox** This folder contains sources of OCCT documentation in plain text (MarkDown) format;
326 * **drv** This folder contains source files generated by WOK (private header files and instantiations of generic classes);
327 * **inc** This folder contains all OCCT header files;
328 * **samples** This folder contains sample applications.
329 * **src** This folder contains OCCT source files. They are organized in folders, one per development unit;
330 * **tests** This folder contains scripts for OCCT testing.
331 * **win64/vc10** This folder contains executable and library files built in optimize mode for Windows platform by Visual C++ 2010;
333 @section OCCT_OVW_SECTION_4_2 Environment Variables
335 To run any Open CASCADE Technology application you need to set the environment variables.
339 You can define the environment variables with env.bat script located in the
340 $CASROOT folder. This script accepts two arguments to be used:
341 the version of Visual Studio (vc8 - vc12) and the architecture (win32 or win64).
343 The additional environment settings necessary for compiling OCCT libraries and samples
344 by Microsoft Visual Studio can be set using script custom.bat located in the same folder.
345 You might need to edit this script to correct the paths to third-party libraries
346 if they are installed on your system in a non-default location.
348 Script msvc.bat can be used with the same arguments for immediate launch of Visual Studio for (re)compiling OCCT.
353 If OCCT was built by Code::Blocks, you can define the environment variables with env_cbp.sh or custom_cbp.sh script.
355 If OCCT was built by Automake, you can define the environment variables with env_amk.sh or custom_amk.sh script.
357 The scripts are located in the OCCT root folder.
360 ### Description of system variables:
362 * **CASROOT** is used to define the root directory of Open CASCADE Technology;
363 * **PATH** is required to define the path to OCCT binaries and 3rdparty folder;
364 * **LD_LIBRARY_PATH** is required to define the path to OCCT libraries (on UNIX platforms only);
365 * **MMGT_OPT** (optional) if set to 1, the memory manager performs optimizations as described below; if set to 2,
366 Intel (R) TBB optimized memory manager is used; if 0 (default), every memory block is allocated
367 in C memory heap directly (via malloc() and free() functions).
368 In the latter case, all other options except MMGT_CLEAR are ignored;
369 * **MMGT_CLEAR** (optional) if set to 1 (default), every allocated memory block is cleared by zeros;
370 if set to 0, memory block is returned as it is;
371 * **MMGT_CELLSIZE** (optional) defines the maximal size of blocks allocated in large pools of memory. Default is 200;
372 * **MMGT_NBPAGES** (optional) defines the size of memory chunks allocated for small blocks in pages
373 (operating-system dependent). Default is 10000;
374 * **MMGT_THRESHOLD** (optional) defines the maximal size of blocks that are recycled internally
375 instead of being returned to the heap. Default is 40000;
376 * **MMGT_MMAP** (optional) when set to 1 (default), large memory blocks are allocated using
377 memory mapping functions of the operating system; if set to 0,
378 they will be allocated in the C heap by malloc();
379 * **CSF_LANGUAGE** is required to define the default language of messages;
380 * **CSF_DEBUG** (optional, Windows only): if defined then a diagnostic message is displayed in case of an exception;
381 * **CSF_DEBUG_BOP** (optional): if defined then it should specify directory where diagnostic data on problems occured in Boolean operations will be saved;
382 * **CSF_MDTVTexturesDirectory** defines the directory for available textures when using texture mapping;
383 * **CSF_ShadersDirectory** defines the directory for GLSL programs (required for advanced rendering techniques and custom shaders);
384 * **CSF_UnitsDefinition** and **CSF_UnitsLexicon** should define paths to resource files Lexi_Expr.dat and Units.dat, respectively, required for support of measurement units;
385 * **CSF_SHMessage** is required in order to define the path to the messages file for *ShapeHealing*;
386 * **CSF_XSMessage** is required in order to define the path to the messages file for **STEP** and **IGES** translators;
387 * **CSF_StandardDefaults** and **CSF_PluginDefaults** are required in order to maintain CASCADE Persistence mechanism to make possible any open/save operations with OCAF documents;
388 * **CSF_StandardLiteDefaults** is required in order to maintain *OCCT Persistence mechanism* to make possible any open/save operations with Lite OCAF documents;
389 * **CSF_XCAFDefaults** any open/save operations for **XDE** documents;
390 * **CSF_IGESDefaults** and **CSF_STEPDefaults** are required for **IGES** and **STEP** translators correspondingly in order to define the path to the resource files;
391 * **CSF_XmlOcafResource** is required in order to set the path to **XSD** resources, which defines XML grammar.
392 * **CSF_MIGRATION_TYPES** is required in order to read documents that contain old data types, such as *TDataStd_Shape*;
393 * **TCLLIBPATH**, **TCL_LIBRARY**, **TK_LIBRARY** and **TIX_LIBRARY** are required to allow work with **DRAW** and **WOK**.
395 @section OCCT_OVW_SECTION_7 Getting Started
397 @subsection OCCT_OVW_SECTION_7_1 Draw Test Harness
399 Draw is a command interpreter based on TCL and a graphical system used for testing and demonstrating OCCT modeling libraries.
401 Draw can be used interactively to create, display and modify objects such as curves, surfaces and topological shapes.
403 @image html /overview/images/overview_draw.png
404 @image latex /overview/images/overview_draw.png
406 Scripts can be written to customize Draw and perform tests.
407 New types of objects and new commands can be added using C++ programming language.
411 * A command interpreter based on TCL command language.
412 * A 2D an 3D graphic viewer with support of operations such as zoom, pan, rotation and full-screen views.
413 * An optional set of geometric commands to create and modify curves and surfaces and to use OCCT geometry algorithms.
414 * A set of topological commands to create and modify BRep shapes and to use OCCT topology algorithms.
415 * A set of graphic commands for view and display operations including Mesh Visualization Service.
416 * A set of Application framework commands for handling of files and attributes.
417 * A set of Data Exchange commands for translation of files from various formats (IGES,STEP) into OCCT shapes.
418 * A set of Shape Healing commands: check of overlapping edges, approximation of a shape to BSpline, etc.
420 You can add new custom test harness commands to Draw in order to test
421 or demonstrate a new functionality, which you are developing.
423 Currently DRAW Test Harness is a single executable called DRAWEXE.
425 Commands grouped in toolkits can be loaded at run-time thereby implementing dynamically loaded plug-ins.
426 Thus you can work only with the commands that suit your needs adding
427 the commands dynamically without leaving the Test Harness session.
429 Declaration of available plug-ins is done through special resource file(s).
430 The pload command loads the plug-in in accordance with
431 the specified resource file and activates the commands implemented in the plug-in.
433 The whole process of using the plug-in mechanism as well as the instructions for extending Test Harness is described in the @ref occt_user_guides__test_harness.
435 Draw Test Harness provides an environment for OCCT automated testing system.
436 Please, consult its @ref occt_dev_guides__tests "Automated Testing System" for details.
440 * The DRAWEXE executable is delivered with the installation procedure on Windows platform only.
441 * To start it, launch DRAWEXE executable from Open CASCADE Technology/Draw Test Harness item of the Start\\Programs menu.
443 @subsection OCCT_OVW_SECTION_7_2 Experimenting with Draw Test Harness
450 1. If OCCT was built by Code::Blocks use <i>$CASROOT/draw_cbp.sh</i> file to launch *DRAWEXE* executable;
451 2. If OCCT was built by Automake use <i>$CASROOT/draw_amk.sh</i> file to launch *DRAWEXE* executable;
453 Draw[1]> prompt appears in the command window
459 Launch Draw executable from Open CASCADE Technology\\Test Harness\\Draw Test Harness
460 item of the Start\\Programs menu or Use <i>$CASROOT\\draw.bat</i> file to launch *DRAWEXE* executable.
462 Draw[1]> prompt appears in the command window
466 **Creating your first geometric objects**
468 1. In the command window, type *axo* to create an axonometric view
469 2. Type *box b -10 -10 -10 20 20 20* to create a cube *b* of size 20, parallel to the X Y Z axis and centered on the origin. The cube will be displayed in the axonometric view in wireframe mode.
470 3. Type *fit* to fill the viewer with the cube
471 4. Type *pcylinder c 2 30* to create a cylinder *c* of radius 2 and height 30. The cylinder will be displayed in addition to the cube
473 **Manipulating the view**
475 1. Type *clear* to erase the view
476 2. Type *donly c* to display the cylinder only
477 3. Type *donly b* to display the cube only
478 4. Type *hlr hlr b* to display the cube in the hidden line removal mode
480 **Running demonstration files**
482 1. Type *cd ../..* to return to the root directory
483 2. Type *cd samples/tcl* to reach the *DrawResources* directory
484 3. Type *source \<demo_file\>* to run the demonstration file provided with Open CASCADE. The following demonstration files are available:
485 * DataExchangeDemo.tcl: demonstrates sample sequence of operations with writing and reading IGES file
486 * ModelingDemo.tcl: demonstrates creation of simple shape and displaying it in HLR mode
487 * VisualizationDemo.tcl: demonstrates use of 3d viewer
488 * cad.tcl: creates solid shape looking like abbreviation "CAD"
489 * bottle.tcl: creates bottle as in OCCT Tutorial
490 * drill.tcl: creates twist drill bit shape
491 * cutter.tcl: creates milling cutter shape
492 * xde.tcl: demonstrates creation of simple assembly in XDE
493 * materials.tcl: demonstrates visual properties of materials supported by 3d viewer
494 * raytrace.tcl: demonstrates use of ray tracing display in 3d viewer
495 * dimensions.tcl: demonstrates use of dimensions, clipping, and capping in 3d viewer
499 1. Type *help* to see all available commands
500 2. Type *help \<command_name\>* to find out the arguments for a given command
502 @subsection OCCT_OVW_SECTION_7_3 Programming Samples
504 @subsubsection OCCT_OVW_SECTION_7_3_1 MFC
506 Visual C++ programming samples containing 10 Visual C++ projects
507 illustrating how to use a particular module or functionality.
509 The list of MFC samples:
522 @image html /overview/images/overview_mvc.png
523 @image latex /overview/images/overview_mvc.png
527 * MFC samples are available only on Windows platform;
528 * To start a sample use Open CASCADE Technology\\Samples\\Mfc\\ item of the Start\\Programs menu;
529 * Read carefully readme.txt to learn about launching and compilation options.
531 See \subpage samples_mfc_standard "Readme" for details.
533 @subsubsection OCCT_OVW_SECTION_7_3_2 Qt
535 OCCT contains three samples based on Qt application framework
540 Import Export programming sample contains 3D Viewer and Import / Export functionality.
542 @image html /overview/images/overview_qt.png
543 @image latex /overview/images/overview_qt.png
548 The Qt programming tutorial teaches how to use Open CASCADE Technology services to model a 3D object.
549 The purpose of the tutorial is not to explain all OCCT classes but
550 to help start thinking in terms of the Open CASCADE Technology.
552 This tutorial assumes that the user has experience in using and setting up C++.
553 From the viewpoint of programming, Open CASCADE Technology is designed
554 to enhance user's C++ tools with high performance modeling classes, methods and functions.
555 The combination of these resources allows creating substantial applications.
557 **See also:** @ref occt__tutorial "OCCT Tutorial"
561 * Qt samples are available on all supported platforms;
562 * To start a sample on Windows use Open CASCADE Technology\\Samples\\Qt\\ item of the Start\\Programs menu.
564 @subsubsection OCCT_OVW_SECTION_7_3_3 C#
566 C# sample demonstrates integration of OCCT 3D Viewer and Import / Export functionality into .NET applications (using Windows Forms and WPF front ends).
568 @image html /overview/images/overview_c__ie.png
569 @image latex /overview/images/overview_c__ie.png
585 See \subpage samples_csharp_occt "Readme" for details.
587 There is also another C# example with the same functionality, which demonstrates the integration of Direct3D Viewer into .NET applications using WPF front end.
589 See \subpage samples_csharp_direct3d "Readme" for details.
591 @subsubsection OCCT_OVW_SECTION_7_3_4 Android
593 There are two samples are representing usage OCCT framework on Android mobile platform. They represent an OCCT-based 3D-viewer with CAD import support in formats BREP, STEP and IGES: jniviewer (java) and AndroidQt (qt+qml)
596 @image html /overview/images/samples_java_android_occt.jpg
597 @image latex /overview/images/samples_java_android_occt.jpg
598 Java - See \subpage samples_java_android_occt "Readme" for details.
601 @image html /overview/images/samples_qml_android_occt.jpg
602 @image latex /overview/images/samples_qml_android_occt.jpg
603 Qt - See \subpage samples_qml_android_occt "Readme" for details.