Difference between revisions of "Modules - Standard v0.1"

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Notes:
 
Notes:
 
* A project generating shell script has been developed for this purpose.
 
* A project generating shell script has been developed for this purpose.
 +
** svn co http://163.117.201.41/svn/ASIBOTcoderepo/trunk/tools/mkproy
 
* extern/ is intended for 3rd party libraries.
 
* extern/ is intended for 3rd party libraries.
 
* data/ is intended for inclusion of multiplatform (shared) data for execution of the program, such as 3d models, etc...
 
* data/ is intended for inclusion of multiplatform (shared) data for execution of the program, such as 3d models, etc...
 
* out/win32/, out/linux-x86, etc, must contain the platform-specific shared libraries and other complements necesary for the execution of the resulting application or library.
 
* out/win32/, out/linux-x86, etc, must contain the platform-specific shared libraries and other complements necesary for the execution of the resulting application or library.

Revision as of 18:08, 12 January 2010

This page should contain guidelines for designing new modules for the software architecture. The intention of this is to keep internal coherence and compatability with RoboticsLab robot modules who follow this standard. A list of available modules can be found at the description of modules page.

  • Each directory in the trunk folder structure should contains modules that represent the same single block in the control block diagram.
  • Interfaces should be the same throughout all the modules in the same directory, to assure interchangability.
  • When the module is a hardware interface, it is recommended to create a dummy (fake) module too for debugging purposes of other modules in absence of hardware component or simulator equivalent.
  • Each module name should contain (in order, lower-cased, and separated by underscores):
    • A three letter prefix that represents the name of the parent directory.
    • A description of its implementation.
  • Each port should contain:
    • The description of the module implementation.
    • The short-nomenclature data type identifier.
  • Each internal variable related with communication (bottle, int...) should contain:
    • The descriptor such as 'bottle', 'int'...
    • The short-nomenclature data type identifier.
    • The I/O identifier: 'i' for input, 'o' for output, 'io' for input/output.
\** Example **\
Parent Directory: drivers
 Module: drv_fake
 Ports: fake_q
 Internal Parameters: bottle_q_i, bottle_q_o, double_q_i[], double_q_o[]...

Recommended module folder structure

The intention of defining this should be for each project to be self-contained. Each module directory should contain the following structure (full implementation is not necessary):

  • doc/
  • extern/
    • bin/
      • linux-x86/
      • win32/
      • ...
    • include/
    • lib/
      • linux-x86/
      • win32/
      • ...
  • mk/
    • msvc9/
    • linux-x86/
    • ...
  • out/
    • data/
    • win32/
    • linux-x86/
    • ...
  • src/
  • AUTHORS
  • INSTALL
  • install-win32.txt

Notes:

  • A project generating shell script has been developed for this purpose.
  • extern/ is intended for 3rd party libraries.
  • data/ is intended for inclusion of multiplatform (shared) data for execution of the program, such as 3d models, etc...
  • out/win32/, out/linux-x86, etc, must contain the platform-specific shared libraries and other complements necesary for the execution of the resulting application or library.