Fix up documentation - remove obsolete Scheduler Overview page, roll documentation into the documentation for the (deprecated) Simple Scheduler module.

LUFA/ManPages/DevelopingWithLUFA.txt

@@ -17,6 +17,5 @@
  *  \li \subpage Page_BuildLibrary - Building as a Linkable Library
  *  \li \subpage Page_WritingBoardDrivers - How to Write Custom Board Drivers
  *  \li \subpage Page_SoftwareBootloaderStart - How to jump to the bootloader in software
- *  \li \subpage Page_SchedulerOverview - Overview of the Simple LUFA Scheduler (DEPRECATED)
  */
  

LUFA/ManPages/Donating.txt

@@ -9,7 +9,7 @@
  *
  *  \image html Author.jpg "Dean Camera, LUFA Developer"
  *
- *  I am a 20 year old University student studying for a double degree in Computer Science and Electronics Engineering.
+ *  I am a 21 year old University student studying for a double degree in Computer Science and Electronics Engineering.
  *  The development and support of this library requires much effort from myself, as I am the sole developer, maintainer
  *  and supporter. Please consider donating a small amount to support this and my future Open Source projects - All
  *  donations are <i>greatly</i> appreciated.

LUFA/ManPages/SchedulerOverview.txt

@@ -1,35 +0,0 @@
-/** \file
- *
- *  This file contains special DoxyGen information for the generation of the main page and other special
- *  documentation pages. It is not a project source file.
- */
-
-/** \page Page_SchedulerOverview LUFA Scheduler Overview
- *
- *  <B>THE LUFA SCHEDULER IS NOW DEPRECATED AND WILL BE REMOVED IN A FUTURE RELEASE. EXISTING CODE SHOULD CONVERT
- *     TO STANDARD LOOPS AS SHOWN IN THE CURRENT LIBRARY DEMOS.</b>
- *
- *
- *  The LUFA library comes with a small, basic round-robbin scheduler which allows for small "tasks" to be executed
- *  continuously in sequence, and enabled/disabled at runtime. Unlike a conventional, complex RTOS scheduler, the
- *  LUFA scheduler is very simple in design and operation and is essentially a loop conditionally executing a series
- *  of functions.
- *
- *  Each LUFA scheduler task should be written similar to an ISR; it should execute quickly (so that no one task
- *  hogs the processor, preventing another from running before some sort of timeout is exceeded). Unlike normal RTOS
- *  tasks, each LUFA scheduler task is a regular function, and thus must be designed to be called, and designed to
- *  return to the calling scheduler function repeatedly. Data which must be preserved between task calls should be
- *  declared as global or (preferably) as a static local variable inside the task.
- *
- *  The scheduler consists of a task list, listing all the tasks which can be executed by the scheduler. Once started,
- *  each task is then called one after another, unless the task is stopped by another running task or interrupt.
- *
- *
- *  If desired, the LUFA scheduler <b>does not need to be used</b> in a LUFA powered application. A more conventional
- *  approach to application design can be used, or a proper scheduling RTOS inserted in the place of the LUFA scheduler.
- *  In the case of the former the USB task must be run manually repeatedly to maintain USB communications, and in the
- *  case of the latter a proper RTOS task must be set up to do the same.
- *
- *
- *  For more information on the LUFA scheduler, see the Scheduler.h file documentation.
- */

LUFA/Scheduler/Scheduler.h

@@ -51,35 +51,53 @@
  *
  *  For a task to yield it must return, thus each task should have persistent data marked with the static attribute.
  *
+ *  Each LUFA scheduler task should be written similar to an ISR; it should execute quickly (so that no one task
+ *  hogs the processor, preventing another from running before some sort of timeout is exceeded). Unlike normal RTOS
+ *  tasks, each LUFA scheduler task is a regular function, and thus must be designed to be called, and designed to
+ *  return to the calling scheduler function repeatedly. Data which must be preserved between task calls should be
+ *  declared as global or (preferably) as a static local variable inside the task.
+ *
+ *  The scheduler consists of a task list, listing all the tasks which can be executed by the scheduler. Once started,
+ *  each task is then called one after another, unless the task is stopped by another running task or interrupt.
+ *
  *  Usage Example:
  *  \code
  *      #include <LUFA/Scheduler/Scheduler.h>
  *      
- *      TASK(MyTask1);
- *      TASK(MyTask2);
+ *      TASK(MyTask1); // Task prototype
+ *      TASK(MyTask2); // Task prototype
  *      
  *      TASK_LIST
  *      {
- *      	{ .Task = MyTask1, .TaskStatus = TASK_RUN, .GroupID = 1  },
- *      	{ .Task = MyTask2, .TaskStatus = TASK_RUN, .GroupID = 1  },
+ *          { .Task = MyTask1, .TaskStatus = TASK_RUN, .GroupID = 1  },
+ *          { .Task = MyTask2, .TaskStatus = TASK_RUN, .GroupID = 1  },
  *      }
  *
  *      int main(void)
  *      {
- *      	Scheduler_Start();
+ *          Scheduler_Init();
+ *
+ *          // Other initialisation here
+ *
+ *          Scheduler_Start();
  *      }
  *
  *      TASK(MyTask1)
  *      {
- *      	// Implementation Here
+ *          // Task implementation here
  *      }
  *
  *      TASK(MyTask2)
  *      {
- *      	// Implementation Here
+ *          // Task implementation here
  *      }
  *  \endcode
  *
+ *  If desired, the LUFA scheduler <b>does not need to be used</b> in a LUFA powered application. A more conventional
+ *  approach to application design can be used, or a proper scheduling RTOS inserted in the place of the LUFA scheduler.
+ *  In the case of the former the USB task must be run manually repeatedly to maintain USB communications, and in the
+ *  case of the latter a proper RTOS task must be set up to do the same.
+ *
  *  @{
  */