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README
About QP/C
==========
QP/C is an event-driven, RTOS-like, active object framework for
microcontrollers.

The QP/C framework provides thread-safe execution of active objects
(concurrent state machines) and supports both manual and automatic coding
of UML statecharts in readable, production-quality ANSI-C. Automatic code
generation for QP/C applications, compliant with the MISRA-C:2004
guidelines, is provided by the free QM modeling tool.

The QP/C framework can run on "bare-metal" completely replacing a 
traditional RTOS. Ports and ready-to-use examples are provided for:
Cortex-M0/M0+/M1/M3/M4/M4F, RX600, MSP430, C28x, C55x, AVR, ARM7/9,
ColdFire, PIC24, dsPIC, M16C/R8C, H8, HC08, 8051, as well as
Arduino, Raspberry PI, and mbed.

QP/C can also work with a traditional (RT)OS, e.g., POSIX (Linux, QNX),
Windows, VxWorks, ThreadX, uC/OS, FreeRTOS.

All versions of QP are described in detail in the book "Practical UML
Statecharts in C/C++, 2nd Edition: Event-Driven Programming for Embedded
Systems" published by Newnes in 2008 (see www.state-machine.com/psicc2).
QP has a strong user community and has been applied worldwide by some of
the largest companies in their respective industries, such as: consumer
electronics, telecommunications equipment, industrial automation,
transportation systems, medical devices, and many more. Please refer to
the www.state-machine.com website for more information.


Download Instructions
=====================
The Generally Available release of QP/C contains the baseline code
(independent on any particular processor or compiler), extensive "QP/C
Reference Manual" in CHM and HTML, and a full Tutorial that explains
step-by-step how to develop a non-trivial real-time application with QP.
 
Out of the box, the Generally Available release of QP/C contains ports
and examples for ARM Cortex-M3 and M4F as well as ports and examples for
desktop systems (Windows, Linux/POSIX), which you can run without any
embedded targets.

The Makefiles and project files provided in the examples\ directory assume
that the environment variable QPC is defined and it points to the location
of the QP/C framework. For example, assuming that you have installed QP/C
into the directory C:\qp\qpc, you should define the environment variable
QPC to C:\qp\qpc.

Additionally, the provided Makefiles for win32\mingw (Windows with MinGW
GNU-based compiler) assume that the MinGW toolset is available. The MinGW
toolset is now available in the Qtools collection for Windows, which should
be unzipped to your disk and added to the PATH. For example, assuming that
you have the Qtools collection into the C:\tools\qtools\ directory, please
make sure that your PATH contains C:\tools\qtools\bin.


Editing the Environment Variables on Windows
--------------------------------------------
Open the Windows Explorer and right-click on the Computer icon. Then select
Properties from the pop-up menu. This opens a window with the basic
information about your computer. In the left panel of this window, click
on "Advanced system settings". This opens the dialog "System Properties".
Click the "Environment Variables..." button.

To add a new environment variable, click the "New..." button in the System
Variables section and provide the variable name (e.g., QPC) and value
(e.g., C:\software\qpc).

To modify the Path variable, look in the bottom panel "System Variables"
and scroll down to find the variable Path. Click on it and then press
"Edit..." button. Click on the Variable value edit field. At the end of
the string append ;C:\tools\qtools\bin (assuming that you have installed
the Qtools collection in C:\tools\qtools). Make sure that there is a
semicolon ';' between the last entry and the added path.


Editing the Environment Variables on Linux
------------------------------------------
You need to edit the ~/.bash_profile file to add the following line:

export QPC=~/qpc
export QTOOLS=~/qtools

assuming that you have installed QP/C into ~/qpc and Qtools into ~/qtools.


Editing the Environment Variables on Mac OS X
---------------------------------------------
You need to edit the ~/.profile file to add the following line:

export QPC=~/qpc
export QTOOLS=~/qtools

assuming that you have installed QP/C into ~/qpc and
Qtools into ~/qtools.

****
NOTE: After updating envrinment variables, you should log off your account
and then log on again so that all applications can pick up the changes.
****


QP/C Development Kits (QDKs)
============================
The QP/C baseline code usually needs to be adapted to various operating
systems, microprocessors, and compilers. Adapting the QP software is called
porting and QP has been designed from ground up to make the porting easy. 

A large and steadily growing number of QP/C Development Kits (QDKs) for
popular processors (such as ARM7/ARM9, Atmel AVR, TI MSP430, TI TMS320C28x,
TMS320C55x, Renesas RX600, M16C/R8C, Renesas H8/300, FreeScale ColdFire,
80251) and operating systems  (such as Linux/BSD, Windows/WinCE, VxWorks,
ThreadX, FreeRTOS.org, uC/OS-II, eCos) are available for download from: 

http://www.state-machine.com/downloads/

Please keep checking this website, as new QDKs are added frequently.

All QDKs are designed to "plug-into" the directory structure
already established after the installation of the QP/C baseline
code. In other words, you need to install the QP baseline code,
before you install any QDK. 


Licensing QP/C
==============
The QP/C software may be distributed and modified under the terms of the
GNU General Public License as published by the Free Software Foundation,
either version 2 of the License, or (at your option) any later version.
 
Alternatively, the QP software may be distributed and modified under the
terms of Quantum Leaps, LLC commercial licenses, which expressly supersede
the GPL and are specifically designed for licensees interested in retaining
the proprietary status of their code.

This software is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.

You should have received a copy of the GNU General Public License along
with this program (see file GPLv2.txt). If not, see:

http://www.gnu.org/licenses/


Licensing QM
------------
The QM graphical modeling tool is free to download and use,
but is not open source. The QM tool is provided under the terms
of a simple End-User License Agreement (EULA).


Contact information:
--------------------
Quantum Leaps Websites: http://www.state-machine.com
                        http://www.quantum-leaps.com
e-mail:                 info@quantum-leaps.com
toll-free:              1-866-450-LEAP (US Eastern Standard Time)


================================================================

QP/C Revision History
=====================

QP/C Version 4.5.04 (08-Feb-2013)
---------------------------------
The main purpose of this release is adding support for the ARM Cortex-M4F
processors with the hardware Floating-Point Unit (FPU). The QP/C ports
to Cortex-M4F take full advantage of the "lazy stacking" feature of the
FPU registers, and by doing so offer the most efficient preemptive
multitasking on this processor.

Changes in detail:

1. Added ports and examples for ARM Cortex-M4F with the EK-LM4F120XL
board (Stellaris Launchpad).

2. Added the macro QF_LOG2(), which can be re-implemented in the QP ports,
if the CPU supports special instructions, such as CLZ (count leading zeros
in Cortex-M3/M4). If the macro is not defined in the QP port, the default
implementation uses a lookup table.

3. Updated all ARM Cortex-M ports and examples to the latest IAR EWARM
6.50 and Sourcery CodeBench 2012.09-85.

4. Updated App Notes "QP and ARM Cortex-M with IAR" and "QP and ARM
Cortex-M with GNU".

5. Updated the PC-Lint support files (include\lib-qpc.lnt, au-misra2.lnt)
to the latest PC-Lint 9.00j.

6. Updated the Application Note: "QP/C MISRA-C:2004 Compliance Matrix".

7. Spell-checked the comments in all QP/C source files and removed
several typos.

8. Removed the Qt ports and examples from the QP/C Baseline Code and
moved them to the separate QDK/C-Qt.

***
NOTE: QP/C Version 4.5.04 preserves full compatibility with QM 2.2.03
and all existing QDKs for QP/C 4.5.xx.
***


QP/C Version 4.5.03 (28-Nov-2012)
---------------------------------
This release changes the directory structure of QP ports to various
operating systems, such as POSIX (Linux, BSD, etc.), Win32 (Windows),
Android-NDK, etc. The OS ports are moved from the ports\80x86\ 
directory one level up to ports\. Also, the OS examples are moved 
from the examples\80x86\ directory one level up to examples\.


QP/C Version 4.5.02 (04-Aug-2012)
---------------------------------
The main purpose of this release is better, more comprehensive
support for (rapid) prototyping of embedded QP applications on
the desktop with the Win32 API and with Qt. Among others, this
release adds a complete toolkit for creating realistic embedded
front panels with pure Win32-GUI API and free Visual C++ Express
and ResEdit. An extensive Application Note "QP and Win32" is
included in this release.

This release simplifies the QP ports to desktop OSs, such as
Windows (Win32), Linux, BSD, Mac OSX (POSIX) and combines 32-bit
and 64-bit ports in one with conditional compilation.

This release also adds an option for using constructors for
dynamically allocated events. When the configuration macro
Q_EVT_CTOR is defined, the Q_NEW() macro becomes variadic and
takes the arguments for the event constructor. This generally
allows creating dynamic events "on-the-fly" without a temporary
pointer to the event. This QP configuration is demonstrated only
in the QP port to Qt, but can be used in any other port.
NOTE: The event constructor feature is NOT backward-compatible
with the existing applications.

This release also adds a new macro QF_MPOOL_EL, which is
intended for allocating properly aligned storage for memory pools
and event pools.

All QP ports included in this release use only a single QP library,
rather than separate libraries for QEP, QF, QK, and QS.

Finally, this release adds QM models, created with the new QM 2.2.00
to most of the examples. The code generated by this new QM version
complies with MISRA-C:2004 rules.

Changes in detail:

1. Modified QP port to Win32 and used the free Visual C++ Express
2010 with Platform SDK rather than Visual C++ Pro 2008. Renamed
the port directory from vc2008\ to vc\. Provided a completely
revised App Note "QP and Win32".

2. Eliminated QP port to Win32 with one thread (Win32-1T).

3. Consolidated all QP ports to POSIX OSs (Linux, Linux64, Mac_OSX)
into a single port to POSIX and placed it in the directory posix\.

4. Renamed the port directory qt_1t\ to qt\.

5. Added event constructor to qevt.h (controlled by the configuration
macro Q_EVT_CTOR).

6. Added new variadic version of the Q_NEW() macro in qf.h when
Q_EVT_CTOR is defined.

7. Added macro QF_MPOOL_EL to qmpool.h. Modified all examples to
demonstrate the use of this macro to allocate properly aligned
storage for event pools.

8. Added new typedef 'enum_t' and modified signatures of functions
taking event signals from QSignal to enum_t. This was done to
significantly reduce the number of casts necessary when enumerated
signals were passed to QP functions.

9. Modified all QP ports distributed in the QP/C baseline code
to generate only a single QP library, rather than separate
libraries for QEP, QF, QK, and QS. This includes all QP ports
to the desktop (ports\80x86\ directory) and ARM Cortex-M ports
(ports\arm-cortex\ directory).

10. Modified all examples to link only one QP library.

11. Added QM models to most examples and used the automatically
generated code from the models instead of the hand-written code.

12. Modified Qt ports to use the new "event constructors" and
modified examples for Qt to demonstrate this feature.

13. Added .ui files to the Qt examples for generating UIs
graphically with the Qt Designer tool. Revised and updated the
App Note "QP and Qt".

14. Added new macro QS_USR_DICTIONARY() to QS for providing symbolic
names for user-defined trace records

15. Added new macro QS_RESET() to QS for telling the QSPY application
when the target resets. This allows QSPY to reset its internal state.


QP/C Version 4.5.01 (14-Jun-2012)
---------------------------------
The main purpose of this minor release is providing improved
MISRA-compliant state machine implementation. Specifically, a new
macro Q_UNHANDLED() has been added for a situation when a guard
condition evaluates to FALSE, but the state model does not prescribe
the explicit [else] case for this guard. In this case, the state
handler can return Q_UNHANDLED(), which will cause the QEP event
processor to propagate the event to the superstate, which is what
UML semantics prescribes.

NOTE: These change to the QEP event processor is completely
backwards-compatible. All state handler functions coded the old
way will continue to handle the guard conditions correctly and
in accordance with the UML specification. The new Q_UNHANDLED()
macro is necessary only for MISRA-compliant state handler coding,
which will be applied in the upcoming release of the QM modeling
and code generation tool.  

Changes in detail:

1. Added macro Q_UNHANDLED() and return value Q_RET_UNHANDLED in
qep.h.

2. Modified qhsm_dis.c to handle the Q_RET_UNHANDLED return value.

3. Updated the QP/C MISRA-C:2004 compliance matrix to 
include the new MISRA-compliant way of coding guard conditions.

4. Modified qs.h and qs_dummy.h to add new trace record type
QS_QEP_UNHANDLED, which is generated when the state handler returns
Q_RET_UNHANDLED.

5. Modified qs.h and qs_dummy.h to add the User record dictionary
trace record and macro QS_USR_DICTIONARY().
         
NOTE: This new trace record requires the updated QSPY 4.5.01.

6. Corrected qfsm_dis.c, which did not generate QS trace records
for entry and exit from non-hierarchical states.

7. Updated the IAR ARM compiler used in the ARM Cortex-M examples
to the latest version IAR EWARM 6.40.

8. Modified the Qt port not to define the QPApp::onClockTick()
slot function, but instead to allow defining this slot function in
the BSP of the application.


QP/C Version 4.5.00 (29-May-2012)
---------------------------------
The main purpose of this release is to improve host-based development
of QP applications, which is critical for Test-Driven Development (TDD).
Among others, this release provides integration between QP and the popular
Qt GUI framework, which allows developers to easily build host-based
simulations of the embedded systems with the realistic user interfaces.

This release also simplifies implementing transitions to history, which
is a preparation to providing this feature in the QM modeling tool.

Changes in detail:

1. Renamed the event class from QEvent to QEvt to avoid a name conflict
with the Qt framework. Also, for consistency, renamed the file qevent.h
to qevt.h and the macro Q_EVENT_CAST() to Q_EVT_CAST(). 

NOTE: To minimize impact of this change on the existing QP ports and
applications, the name QEvent is provided as well, but this can be
suppressed by defining the configuration macro Q_NQEVENT in qep_port.h.

2. Changed the design of QF_tick() (file qf_tick.c) to better support
calling this function from low-priority tasks (as opposed to interrupts
and highest-priority tasks), which often happens when QP is executed on
the desktop operating systems. In this design only QF_tick() can remove
time events from the active linked list, so no unexpected changes to the
list structure are eliminated. 

3. Simplified the QTimeEvt class by removing the 'prev' link pointer,
as the new design no longer needs a bi-directional list. These changes
impact the files: qte_*.c. 

4. Added return value to QF_run() to allow transfer of the exit
status to the destop operating systems.

NOTE: This modification haves impact on most QP/C ports, because
the QF_run() function must now return a int16_t value.

5. Eliminated the 'running' member of the QActive class, which
has been used only in the QP ports to "big" OSes such as Linux
or Windows.

6. Added member 'temp' to the QHsm and QFsm base classes to prevent
clobbering the current state (the 'state' member) during transitions.
This change allows keeping the current state unchanged during the
entire transition chain, which in turn allows easy and generic access
to the state information to store the state history in the exit
actions from states. Additional bonus of this re-design is the 
opportunity of testing for stable state configuration in assertions
added to the qhsm_*.c and qfsm_*.c files.

7. Added the QHsm_state() and QFsm_state() accessor macros.

8. Modified the "Transition to History" pattern implementation to 
use the simplified technique of obtaining the current state in the
exit action from the superstate rather than all the exit actions from
the substates. Modified the "State-Local Storage" (SLS) pattern as
well, because it was using the transition to history constructs. 

9. Re-designed the implementation of the QSPY host application, so
that it can be conveniently included as part of the QP library.
This allows direct QS tracing output to the screen for QP applications
running on the desktop.

NOTE: This change is part of the Qtools release 4.5.00.  

10. Modified the QP ports to Win32_1t (both the MinGW and VC2008) to
output QS trace data directly to the stdout via the QSPY host-application
interface. Modified the DPP examples for Win32_1T to demonstrate the
direct QS output to the screen.

11. Added QP port to Qt_1t (Qt with one thread) and two example
applications (DPP and PELICAN crossing).

12. Added GNU compiler option -pthread to QP ports for POSIX with
P-threads, including QP ports and examples for Linux and Mac OS X. 


QP/C Version 4.4.01 (23-Mar-2012)
---------------------------------
The release fixes a bug in Q-SPY software tracing, which caused the
linking error: "Q_SIG_() not defined". This release also includes
a few cosmetic changes, which the Microchip C18 compiler didn't like.


1. Moved Q_SIG_() definition from qep.h to qs.h
2. Changed (QEvent *)0 to (QEvent const *)0 in source files
   qeq_get.c, qeq_init.c, and qa_get_.c. 


QP/C Version 4.4.00 (31-Jan-2012)
---------------------------------
The main purpose of this release is MISRA-C:2004 compliance, strong-type
checking compliance, update of PC-Lint option files and tests, and
general cleanup.

1. Moved the qp_port.h header file from the port directories to
the qcp\include/ directory. Also, moved the inclusion of the
QS (Spy) header files (qs_port.h/qs_dummy.h) from qep.h, qf.h,
and qk.h headers to qp_port.h. These structural changes were made
to reduce the number of preprocessor #if nesting levels below 8,
which is the ANSI-C limit. This was done to comply with the MISRA-C
rule 1.1 (all code shall conform to ANSI/ISO C). 

NOTE: This modifications have impact on most QP/C ports, because
the qp_port.h header file must be removed from the port.

2. Added the PC-Lint option files std.lnt and lib-qpc.lnt to the
qcp/include/ directory.
 
3. Cleaned the whole QP/C code from lint comments. All PC-Lint options
have been moved to PC-Lint option files.
 
4. Modified QP assertion macro Q_DEFINE_THIS_MODULE() to avoid using
the # operator (MISRA rule 19.13). This macro now requires the argument
enclosed in doble quotes "".

NOTE: This modification has impact on some QP/C ports. 

4. Added typedefs for char_t, int_t, float32_t, and float64_t to
event.h header file for compliance with MISRA-C:2004 rules 6.1 and 6.3.

5. Added macros Q_STATE_CAST() and Q_EVENT_CAST() to qep.h to
encapsulate deviation from MISRA-C rule 11.4.

6. Added macro Q_UINT2PTR_CAST() to encapsulate casting unsigned
integers to pointers, which deviates from MISRA-C rule 11.3. This
macro has been added for *application-level* code.

7. Updated ARM Cortex-M examples with the latest CMSIS v3.0, which
complies with more MISRA-C:2004 rules.

8. Added DPP examples for MISRA-C:2004 compliant applications (for
IAR-ARM and GNU-ARM).

9. Added testing of PC-Lint option files against the MISRA-C Exemplar
Suite.

10. Updated ARM-Cortex-M3 port with GNU to the latest Sourcery
CodeBench 2011.09-60.

11. Added QP/C port to Win32-1t and examples (Windows with 1 thread).
This port is useful for testing embedded QP/C applications on windows.

12. Added documentation to QP/C distribution in the directory
qpc/doc/, with the following Application notes:
"MISRA-C:2004 Compliance Matrix", "Quantum Leaps Coding Standard",
"QP and ARM Cortex-M, and QP and Windows",  


QP/C Version 4.3.00 (01-Nov-2011)
---------------------------------
1. This release changes the names of critical section macros and
introduces macros for unconditional interrupt disabling/enabling.
This is done to simplify and speed up the built-in Vanilla and QK
kernels, which no longer are dependent on the interrupt locking
policy.

NOTE: The change in handling the critical section in the Vanilla and
QK kernels can break QP ports, which use the "save and restore
interrupt lock" policy, because all such ports must also define
unconditional interrupt disabling and enabling.

2. This release changes the partitioning of the QK scheduler.
Specifically, the QK scheduler is now divided between two functions
QK_schedPrio_() and QK_sched_(), to calculate the highest-priority
task ready to run and to perform scheduling, respectively. The function
QK_schedPrio_() is useful to determine if scheduling is even necessary.

3. Updated all QP ports to comply with the new critical section
names and policies.

4. Modified the ARM Cortex-M port qk_port.s to take advantage of the
new structure of the QK scheduler.

5. Upgraded the examples for ARM Cortex with IAR EWARM to the
latest IAR EWARM version 6.30.

6. Upgraded the examples for ARM Cortex with GNU (CodeSourcery) to the
latest Sourcery CodeBench 2011.07-60.


QP/C Version 4.2.04 (24-Sep-2011)
---------------------------------
The main pupose of this relase is to provide a bug fix for the QK port
to ARM Cortex processors. The bug fix addresses a very rare and
undocumented behavior of late-arrival of an interrupt while entering
the PendSV exception. In this case the PENDSVSET bit in the NVIC-ICSR
register is *not* cleared when finally PendSV is entered, so the
PendSV exception is entered in a *different* state when it is entered
via the late-arrival mechanism versus the normal activation of the
exception through tail-chaining. The consequence of this undocumented
and inconsistent hardware behavior, PendSV could be re-entered again
before the SVCall exception cleans up the stack. The bug fix is
implemented in the qk_port.s file and consists of clearing the
PENDSVSET bit programmatically inside PendSV_Handler.


QP/C Version 4.2.02 (08-Sep-2012)
---------------------------------
1. The main pupose of this relase is to repackage the default QP/C
distribution to contain the single root directory qpc/ in the
archive. That way, unziping the archive will produce only one
directory (qpc/), which can be then changed by the user.

2. This release also changes the ARM Cortex QP ports with GNU. The
suffix "_cs" has been added to all QP libraries generated by the
Code Sourcery toolset (now Mentor Sourcery CodeBench). This is to 
distinguish libraries generated by different GNU-toolchains (such
as CodeRed, Attolic, DevKit ARM, etc.) 


QP/C Version 4.2.01 (13-Aug-2011)
---------------------------------
1. Modified file qassert.h to add assertion macros #Q_ASSERT_ID,
#Q_REQUIRE_ID, #Q_ENSURE_ID, #Q_INVARIANT_ID, and #Q_ERROR_ID,
which are better suited for unit testig, because they avoid the
volatility of line numbers for indentifying assertions.

2. Added QP port and examples for Mac OS X on 80x86.


QP/C Version 4.2.00 (14-Jan-2011)
---------------------------------
The goal of this milestone release is to extend the number of event
pools (theoretically up to 255 pools) instead of just three event
pools available up til now. Also, this release adds several
improvements to the QS/QSPY software tracing, such as adding sender
information to event posting so that sequence diagrams could be easily
and automatically reconstructed from tracing data. Also, the tracing
now supports 64-bit targets, such as embedded Linux 64-bit. Finally,
this milestone release migrates the examples to use the environment
variable QPC instead of relying on the relative path to the QP/C
framework. This allows easier adaptation of the examples for real
projects, which don't really belong to the examples directory.

The changes in detail are:

1. Changed the QEvent base struct (file qevent.h). The private member
'dynamic_' has been replaced by two members 'poolId_' and 'refCtr_'.

2. Added configuration macro QF_MAX_EPOOL (file qf.h) to define the
maximum number of event pools in the QP application (default to 3).
The maximum theoretical number of this macro is 255.

3. Made algorithmic changes in the QF source code related to the change
of storing the event pool-IDs and reference counters inside QEvent.

4. Changed the default signal size (macro Q_SIGNAL_SIZE in the file
qevent.h) from 1 to 2 bytes.

5. Changed the signature of QActive_recall() to return uint8_t instead
of QEvent*, which this could encourage incorrect usage (processing of
the event at the point of recalling it). Now, the function only returns
1 (TRUE) if the event was recalled and 0 (FALSE) if the event was not
recalled.

6. Added the function QTimeEvt_ctr() and new source file qte_ctr.c.
The function returns the counter of a time event, which allows
using a time event for measuring the time. 

7. Added new QF macros #QF_TICK, #QF_PUBLISH, and #QACTIVE_POST in
file qf.h to provide sender of the events for software tracing.  

8. Added new QS macros (files qs.h and qs_dummy.h) for handling 64-bit
integers. 

9. Added the functions QS_u64() and QS_u64_() and new source file
qs_u64.c.

10. Added the QS macro #QS_U32_HEX_T for hexadecimal formatting of
integer numbers in the user-defined trace records. 

11. Added the new port linux64 for 64-bit Linux. Also added the
corresponding examples for 64-bit Linux. 

12. Adapted the QSPY host application for 64-bit pointer sizes and
the changed layout of trace records that contain event information
(such as PoolID and RefCtr). Also added the backwards-compatibility
option (-v) for switching the tool to the previous data format.

13. Removed the tools directory from the QPC distribution and moved
the QSPY host application to the QTOOLS distribution, which now also
contains the GNU make tools for Windows. 

14. Modified the make files and project files to use the environment
variable QPC instead of relying on the relative path to the QP/C
framework.

15. Upgraded the examples for ARM Cortex with IAR EWARM to the
latest IAR EWARM 6.20.


QP/C Version 4.1.07 (28-Feb-2011)
---------------------------------
The goal of this release is to improve the ease of experimenting with
QP/C on the desktop. This release adds support for Windows (Win32) to
the baseline code. Two most popular compilers for Windows are supported:
Microsoft Visual Studio and MinGW (GNU). The support for Linux has been
improved by including pre-built QP/C libraries and improving makefiles
for Eclipse compatibility.

The changes in detail are:

1. Added Win32 port with the Visual C++ 2008 (ports/80x86/win32/vc2008).
This directory contains the Visual Studio solution all_qp.sln for
building all QP/C libraries from the IDE. Three build configurations
(Debug, Release, and Spy) are supported.

2. Added Win32 port with the MinGW comiler (ports/80x86/win32/mingw).
This directory contains the Makefile for building all QP/C libraries.
Three build configurations (dbg, rel, and spy) are supported.
NOTE: the Makefile assumes that the MinGW/bin directory is added
to the PATH.

3. Added Win32 examples for Visual C++ 2008 (examples/80x86/win32/
vc2008/dpp and examples/80x86/win32/vc2008/qhsmtst). Visual Studio
soultions are provides for all build configurations.

4. Added Win32 examples for MinGW (examples/80x86/win32/mingw/dpp
and examples/80x86/win32/mingw/qhsmtst). Eclipse-compatible makefiles
are provided for all build configurations. NOTE: the Makefiles assume
that the MinGW/bin directory is added to the PATH.

5. Removed memory alignment correction in the file qmp_init.c. This
correction required casting of pointers to integers and was problematic
on 64-bit targets (such as 64-bit Linux).

6. Upgraded the examples for ARM Cortex with CodeSourcery to the
latest Sourcery G++ 2011.02-2.


QP/C Version 4.1.06 (07-Jan-2011)
---------------------------------
1. Made cosmetic improvements to the example QM models of the
"Fly 'n' Shoot" game. 

2. Made improvements in make.bat files for building the examples for
DOS/Open Watcom to run better in DosBox on Linux.

3. Upgraded the examples for ARM Cortex with IAR to the latest
IAR EWARM version 6.10.

4. Upgraded the examples for ARM Cortex with CodeSourcery to the
latest Sourcery G++ 2010.09-66.


QP/C Version 4.1.05 (01-Nov-2010)
---------------------------------
This release is adds examples for the QM (QP Modeler) graphical modeling
and code generation tool. The examples are based on the "Fly 'n' Shoot"
game described in the QP/C Tutorial and in Chapter 1 of the PSiCC2 book.

Specifically, the directory <qpc>\examples\80x86\dos\watcom\l\game-qm\
contains the "Fly 'n' Shoot" game model file "game.qm". This model, when
opened in the QM tool contains all state machine diagrams and generates
code into the subdirectory qm_code\. This code can then be built and
executed on any 80x86 machine (newer versions of Windows or Linux require
the DOSbox application, see http://www.dosbox.com).

The directory <qpc>\examples\arm-cortex\vanilla\iar\game-ev-lm3s811-qm\
contains the version of the game for the EV-LM3S811 ARM Cortex-M3 board.
This directory contains the model file "game.qm", which is actually
identical as the model in the DOS version. The LM3S811 version needs to
be compiled with the IAR compiler and executed on the EV-LM3S811 board.

Additionally, the QP/C baseline code has been slighlty modified for
better conformance to the MISRA C 2004 rules and the latest PC-Lint 9.x. 


QP/C Version 4.1.04 (16-Mar-2010)
---------------------------------
This release is adds compatibility of all examples for DOS with the DOSBox
emulator (http://www.dosbox.com/) that recreates a MS-DOS compatible
environment on all versions of Windows, including 64-bit Windows that don't
run 16-bit DOS applications anymore.

Also, this release includes QP ports and examples for EV-LM3S811 board with
the GNU-based Code Sourcery G++ toolset. Support for Sourcery G++ provides
a very cost-effective option for developing QP applications for ARM Cortex
MCUs. 

Finally, this release improves the Cortex Microcontroller Software Interface
Standard (CMSIS) for the whole family of the Stellaris LM3Sxxx MCUs. The
improvement extends the CMSIS from Sandstorm to Fury, DustDevil, and Tempest
Stellaris families.  


QP/C Version 4.1.03 (21-Feb-2010)
---------------------------------
This release is concerned with the ARM Cortex ports and examples. Specifically,
this release contains the following improvements:

1. Unified source code for ARM Cortex-M3 and the new ARM Cortex-M0 cores,
including the code for the preemptive QK kernel.

2. Compliance with the Cortex Microcontroller Software Interface Standard
(CMSIS) in all ARM Cortex examples.

3. Backward-compatible support for the new LM3S811 EVAL Rev C board with
different OLED display than previous revisions. (NOTE: The OSRAM 96x16x1 OLED
used in REV A-B boards has been replaced RITEK 96x16x1 OLED used in Rev C.)

In the process of making the examples CMSIS-compliant, the dependency on the
Luminary Micro driver library (driverlib.a) has been completely removed.

Additionally, the screen saver of the "Fly 'n' Shoot" game has been improved
to periodically switch off the power of the OLED display, which better protects
the display from burn-in. The affected file is tunnel.c.

Finally, this release introduces the QP_VERSION macro, which identifies the QP
version. Otherwise, this maintenance release does not change the QP/C API in any
way, so the release has NO IMPACT on the QP/C applications except for the
ARM Cortex ports and applications.


QP/C Version 4.1.02 (14-Jan-2010)
---------------------------------
The purpose of this minor maintenance release is the change in the directory
structure for the ARM Cortex ports and examples. As new ARM Cortex cores are
becoming available, the old port name "cortex-m3" could be misleading, because
it actually applies to wider range of ARM Cortex cores. Consequently, all ARM
Cortex ports and examples are hosted in the directory tree called
"arm-cortex".

This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications except for the ARM Cortex
ports and applications. 


QP/C Version 4.1.01 (05-Nov-2009)
---------------------------------
The main purpose of this release is to replace the Turbo C++ 1.01 toolset
with the Open Watcom C/C++ toolset, because Turbo C++ 1.01 is no longer
available for a free download. In contrast, Open Watcom is distributed under
an OSI-certified open source license, which permits free commercial and
non-commercial use. Open Watcom can be downloaded from www.openwatcom.org.

All 80x86/DOS, 80x86/qk, and 80x86/ucos2 ports and examples for Turbo C++ 1.01
have been replaced with ports and examples for Open Watcom. The make.bat
scripts are provided to build the QP/C libraries and examples.

In the process of converting the examples to Open Watcom two new examples
have been added to the standard QP/C distribution. The Calc2 example
located in <qpc>\examples\80x86\dos\watcom\l\calc2 shows how to derive
state machine classes with QP 4.x. The SLS example located in
<qpc>\examples\80x86\dos\watcom\l\sls shows the implemenation of the
new State-Local Storage state design pattern.


QP/C Version 4.1.00 (10-Oct-2009)
---------------------------------
The release provides brings a number of improvements to QP/C and updates
the QP/C ARM Cortex-M3 examples for the EK-LM3S811 board to the latest
IAR EWARM 5.40.

This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications. 

The main changes in QP v4.1.00 with respect to earlier versions are as
follows:

- in qs.h added a new trace record QS_QEP_DISPATCH logged when an event is
dispatched to a state machine. This timestamped trace record marks the
beginning of an RTC step. The end of the RTC step is marked by the existing
timestamped trace records QS_QEP_INTERN_TRAN, QS_QEP_INIT_TRAN, and
QS_QEP_IGNORED, depending on how the event is handled. The new QS_QEP_DISPATCH
record facilitates measurement of the RTC step lengths.

- in qhsm_dis.c added generation of the QS_QEP_DISPATCH trace record.

- in the tools\qspy\ sub-directory added output of the new trace record to the
Q-SPY host application.

- in the tools\qspy\matlab\ sub-directory added processing of the new trace
record to the qspy.m script.

- in qpset.h changed the implementation of the Priority Set. In particular,
the QPSet64 now derives from QPSet8, which enables a common way of testing for
non-empty set (e.g., useful in assembly). Also, the findMax() functions in
QPSet8 and QPSet64 now can work with an empty set, in which case they return
0.

- in qk_sched.c simplified the QK_schedule_() function to skip the testing
of the ready-set for non-empty condition. Such test is no longer necessary.
The test can still be performed outside the QK_schedule_() function (e.g., in
assembly) to avoid calling the scheduler if the ready set is empty.

- in qk_ext.c simplified the QK_scheduleExt_() function in the same way as
QK_schedule_().

- modified make.bat files for building QP libraries in the ports\ directory
to use the externally defined environment variables for the location of the
toolchains. The defaults are applied only when the environment variable is
not defined. This enables greater flexibility in installing the development
tools in different directories than those chosen by Quantum Leaps.

- modified the ARM Cortex-M3 examples for the new IAR EWARM 5.40.

- modified slighlty the Calculator example to allow extensibility.

- in the ARM Cortex-M3 port file qk_port.s added explicit testing of the
QK_readySet_ set for empty condition. This test allows avoiding calling the QK
scheduler and two contex-switches if the ready-set is empty.

- in the game example moved setting up the QS filters from main.c to bsp.c.


QP/C Version 4.0.04 (09-Apr-2009)
---------------------------------
The maintenance release provides a fix for the compile-time assertions,
which did not work correctly for the GNU compiler family. Also, the ARM
Cortex-M3 examples have been recompiled with the newer IAR EWARM v5.30. 

This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications. 

The main changes in QP v4.0.04 with respect to earlier version are as follows:

- in qassert.h file the #Q_ASSERT_COMPILE macro has been modified to render
a negative array dimension when the asserted condition is not TRUE.


QP/C Version 4.0.03 (27-Dec-2008)
---------------------------------
The main purpose of this release is to fix a bug in the QK preemptive kernel,
which occurs only when the advanced QK features are used. Specifically, the QK
priority-ceiling mutex could interfere with QK thread-local storage (TLS) or
QK extended context switch. When the QK mutex is in use, the TLS or the
extended context for this task could get saved to an incorrect priority level.

The release 4.0.03 fixes the bug by strictly preserving the semantics of
QK_currPrio_ variable. The mutex locking now uses a different variable
QK_ceilingPrio_, which represents the ceiling-priority locked by the mutex.
The QK scheduler and extended scheduler now perform an additional check to
make sure that only tasks with priorities above the ceiling can run. To avoid
that additional overhead, the user can define the macro QK_NO_MUTEX, which
eliminates the QK mutex API and eliminates the additional tests in the QK
schedulers.

This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications. 

The main changes in QP v4.0.03 with respect to earlier version are as follows:

- in qk.h file made the QK mutex API only visible when the macro QK_NO_MUTEX
is *not* defined.
- in qk_pkg.h file, added the QK_ceilingPrio_ external declaration when the
macro QK_NO_MUTEX is not defined.
- in qk_mutex.c file, changed priority-ceiling mutex implementation to use
the QK_ceilingPrio_ instead of QK_currPrio_. Also, added compiler error when
the macro QK_NO_MUTEX is definedthis and this file is included in the build.
- in qk_sched.c file added testing priority against the QK_ceilingPrio_,
when the macro QK_NO_MUTEX is not defined.
- in qk_ext.c file added testing priority against the QK_ceilingPrio_,
when the macro QK_NO_MUTEX is not defined.


QP/C Version 4.0.02 (15-Nov-2008)
---------------------------------
This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications. 

The main changes in QP v4.0.02 with respect to earlier version are as follows:

- in qep.h file, added comments to macros Q_TRAN() and Q_SUPER() to suppress
the PC-lint warining about using the comma-operator (MISRA rule 42).
- in qhsm_in.c file, fixed a bug in the QHsm_isIn() function.
- fixed a bug in tunnel.c file ("Fly 'n' Shoot" game). The constant event
HIT_WALL was not declared static.


QP/C Version 4.0.01 (09-Jun-2008)
---------------------------------
This maintenace release is made to allow using QS software tracing with
the GNU compiler for AVR (WinAVR). Specifically, the output of the strings
residing in ROM has been fixed.

This maintenance release does not change the QP/C API in any way, so the
release has NO IMPACT on the QP/C applications. 

The main changes in QP v4.0.01 with respect to earlier version are as follows:

- in qs_.c file, updated the function QS_str_ROM_().
- in qs_str.c file, updated the function QS_str_ROM().
- in qvanilla.c file, funciton QF_run(), declared the temporary variables
as static to save stack space, because QF_run() never returns and is not
reentrant.


QP/C Version 4.0.00 (07-Apr-2008)
---------------------------------
This milestone release is made for the book
"Practical UML Statecharts in C/C++, Second Edition"
(http://www.quantum-leaps.com/psicc2/).
The book describes in great detail this new release. The older
"QP Programmer's Manual" is now phased out and is replaced with
this hyper-linked "QP/C Reference Manual"
(http://www.quantum-leaps.com/doxygen/qpc/tutorial_page.html),
which provides very detailed, easily searchable reference to the
software. The book "Practical UML Statecharts in C/C++,
Second Edition" provies in-depth discussion of the relevant
concepts as well as the design study of QP v4.0.

The main changes in QP v4.0 with respect to earlier versions are
as follows:

- the coding techniques for hierarchical state machines (HSMs)
and the simpler finite state machines (FSMs) have changed. While
the changes are quite simple, the backward compatibility with
QEP 3.x has been broken, meaning that some manual changes to the
state machines implemented with earlier versions are necessary.
Please refer to the "QP/C Tutorial" Section "Coding HSMs"
http://www.quantum-leaps.com/doxygen/qpc/coding_hsm.html)
for more information about coding state machines with QEP 4.x.

- The main change is the signature of a state-handler function,
which now returns simply a byte. This return type (typedef'ed as
QState) is the status of the event-handling that the state
handler conveys to the QEP event processor.
    - The macro Q_TRAN() must now always follow the return
    statement.
    - The new macro Q_SUPER() designates the
    superstate of the given state. Again, this macro must follow
    the return statement.
    - Then two new macros Q_HANDLED() and
    Q_IGNORED() have been added to return the status of event
    handled and event ignored, respectively.

- all callback functions are now consistently called XXX_onYYY()
    - Q_assert_handler() is now Q_onAssert()
    - QF_start() is now QF_onStartup()
    - QF_cleanup() is now QF_onCleanup()

- the new header file qevent.h has been broken off the qep.h
header file. qevent.h contains the QEvent class and other basic
facilities used in the whole QP. This new file allows easier
replacement of the entire QEP event processor with custom event
processors, if you wish do so.

- the macro QEP_SIGNAL_SIZE is renamed to Q_SIGNAL_SIZE.

- the data type QSTATE is now deprecated. Please use QState.

- the "protected" in C don't no longer have the trailing
underscore. For example, QHsm_ctor_() is replaced with
QHsm_ctor(), etc.

- the QF_FSM_ACTIVE macro is now deprecated. Instead, you have
the family of macros QF_ACTIVE_SUPER_, QF_ACTIVE_CTOR_,
QF_ACTIVE_INIT_, QF_ACTIVE_DISPATCH_, QF_ACTIVE_STATE_, which
allow replacing the base class for active objects in QF. By
default, these macros are defined to use the QHsm class from the
QEP hierarchical event processor, but you can replace the event
processor, if you wish.

- the internal macro QACTIVE_OSOBJECT_WAIT_() is now
QACTIVE_EQUEUE_WAIT_().

- the internal macro QACTIVE_OSOBJECT_SIGNAL_() is now
QACTIVE_EQUEUE_SIGNAL_().

- the internal macro QACTIVE_OSOBJECT_ONIDLE_() is now
QACTIVE_EQUEUE_ONEMPTY_().

- the data mebers QActive.osObject and QActive.thread are now
present only if the macros QF_OS_OBJECT_TYPE and QF_THREAD_TYPE
are defined.

- the QPSet class has been renamed to QPSet64.

- the QPSet_hasElements() has been renamed QPSet64_notEmpty()

- the QS software tracing is now better integrated with all QP
components. You no longer need to explicitly include qs_port.h,
because it is automatically included when you define the macro
Q_SPY. Also the file qs_dummy.h is included automatically when
the macro Q_SPY is <STRONG>not</STRONG> defined.

- the new header file qvanilla.h now replaces the file qsched.h.

- the file qa_ctor.c is now obsolete.

- the macros QF_SCHED_LOCK() and QF_SCHED_UNLOCK() are now
obsolete.

- the native QF event queues (both the active object event
queues and the "raw" thread-safe queues) are slightly more
efficient by counting down the head and tail pointers rather
than up. This leads to wrap-around at zero, which is easier
(faster) to test than any other wrap-around point. Also the
native QF event queues maintain the minimum of the free events
in the queue rather the maximum of used events.

- the data member of QEQueue.nTot class is removed.

- the QF_publish() function has been re-written so that QF no
does <STRONG>not need to lock the scheduler</STRONG>. The
QF_publish() function posts events to active objects with
scheduler unlocked starting from the highest-priority active
objects. However, the event is protected from inadvertent
recycling by incrementing its reference counter before the
publish operation. After the event  is posted to all
subscribers, the garbage collector QF_gc() is called to
decrement the reference counter and recycle the event, if
necessary.

- the qf_run.c file is obsolete. The QF_run() function for the
cooperative "vanilla" kernel is now implemented in the file
qvanilla.c.

- the QF_tick() function has been rewritten to allow calling
QF_tick() from the task context as well as from the interrupt
context. The nested critical section around QF_tick() is no
longer needed when it is called from the task level. Among
others, this re-design <STRONG>eliminates the need for the 
recursive</STRONG> mutex in the POSIX QF port.

- the QMPool_init() function has been re-designed to optimally
align the memory buffer in a portable and platform-independent
way. This should bring some performance improvements on some
CPUs (e.g., 80x86).

- the extended QK scheduler has been re-designed to save stack
space. The extended context (e.g., coprocessor registers) are no
longer saved on the precious stack, but rather in the active
object.

- a bug has been fixed in handling of Thread-Local Storage (TLS)
in the QK scheduler and extended scheduler.

- the -q (quiet) flag has been added to the QSPY host
application.

- the support for two new compilers for Windows has been added
for the QSPY host application. The application can now be build
with the MinGW GNU compiler for Windows as well as the Microsoft
Visual C++ 2005.

- the QP port to Linux has been improved by eliminating the need
for recursive P-Thread mutex.

- the QP port to MicroC/OS-II has been upgraded to the latest
version 2.86.

- all examples in the standard QP distribution have been cleaned
up and updated to the latest QP API changes.

- all examples that use QF now contain the QS software tracing
support.
  

----------------------------------------------------------------
----------------------------------------------------------------
Version 3.4.01 (Product)
Release date: Sep 25, 2007

This product release adds the backward-compatibility layer so that previous
QP/C ports continue to work with the new version.

This product release also comes with the updated "QP Programmer's Manual",
which now includes the QS target component and the QSpy host application.


----------------------------------------------------------------
Version 3.4.00 (Beta)
Release date: Sep 03, 2007

This release brings several changes with the overall goal of simplifying and
improving consistency across the whole QP family of frameworks (QP/C, QP/C++,
and QP-nano).

This release includes simplifying of the C naming conventions (see the
updated Application Note <a
href="http://www.quantum-leaps.com/doc/AN_QL_Coding_Standard.pdf">"QL C/C++
Coding Standard"</a>). The double-underscore suffix for private data members
of structures is no longer used. Single underscore is used still only for
internal QP/C facilities that typically should not be used by the application
programmer.

The main changes are made to the QEP component. The "static transition
optimization" has been removed altogether. This simplifies significantly the
state machine structure (which now contains just the currently active state).
Also, the efficiency is improved for processing the dynamic transitions and
the stack usage is lower. This change brings the QEP/C implementation much
closer to QEP-nano.

The other big change in this release is including the Quantum Spy (QS)
component in the distribution. Previously, the QS component was available only
under the commercial licensing. It is now open source, just as the rest of QP.

In, the QF/C component, the QTimerEvt_publishIn() and QTimeEvt_publishEvery()
have been removed, because they introduced a coupling between time events and
publish-subscribe. This is undesirable for projects that do not want to
include the publish-subscribe facilty.

Finally, the revision history for individual QP/C components has been moved
from the header files and is now consolidated in the header file
doxygen/qpc_rev.h.

----------------------------------------------------------------
Version 3.3.01 (Product)
Release date: Mar 17, 2007

The main change in this release is removing the 'const'
declaration of two temporary variables inside QHsm_dispatch()
and QHsm_tran() functions. This was necessary to compile the
code with the MPLAB C18 compiler for PIC18 devices.
 
Other minor changes include adding the 'U' suffix (unsigned)
to several numerical literals to avoid MPLAB C18 compiler
warnings. The changes in release 3.3.01 have NO impact on
the existing QP/C ports.

1. in file qhsm_dis.c:80 removed 'const' from the declaration
of 'c'.
2. in file qhsm_tra.c:69 removed 'const' from the declaration
of 'src'.
3. in file qep.c changed the version number to "3.3.01".

----------------------------------------------------------------
Version 3.3.00 (Product)
Release date: Jan 22, 2007

The main change in this release is removing include 
<stdint.h> from the qep.h header file. This has been done 
becasue vast majority of embedded compilers for small MCUs 
actually do not provide the C-99 Standard header file 
<stdint.h>. Worse, compilers such as Freescale HC(S)08 
C/C++ compiler will not include <stdint.h> unless it's in 
the compilers's include directory, even though the 
"stdint.h" file might be in the compiler include path. 
 
Removing the "#include <stdint.h>" from qep.h header file 
allows more flexibility in the way the standard exact-width 
integer types are defined. For compilers that do not 
provide the <stdint.h> file, you provide the typedef's in 
the qep_port.h file before including qep.h. For compilers 
that do provide the <stdint.h> header file, you simply 
include this file in the qep_port.h header file before 
including qep.h. 
 
The changes in release 3.3.00 have impact on all QP ports, 
because you need to modify the qep_port.h file in all these 
ports. 
 
The other significant change in this release is adding the 
macro Q_ROM_VAR for all constant objects allocated in ROM. 
The Q_ROM_VAR macro has been added for the compilers like 
Freescale HC(S)08, which require far pointers to access the 
objects in ROM. Please note that specifying the pointer 
size for accessing a ROM objects is syntactically different 
than specifying that the object is allocated in ROM (see 
macro Q_ROM). 
 
Finally, in release 3.3.00 the build strategy for QP ports 
has been simplified as well. Instead of separate Makefile 
for every QP component, such as QEP, QF, QK, and QS, not 
the "ports" directory contains a batch file "make.bat" that 
builds all the libraries at once. 

1.	in file qep.h removed "#include <stdint.h>". 
2.	in file qassert.h added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of functions accessing 
these objects.
3.	in file qep.h added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of functions accessing 
these objects.
4.	in file qep.h added default empty definitions and 
Doxygen comments for macros Q_ROM 
and Q_ROM_VAR. 
5.	in file qep.c added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of 
functions accessing these objects. 
6.	in file qf.c added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of 
functions accessing these objects. 
7.	in file qk.c added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of 
functions accessing these objects. 
8.	in file qep.c added Q_ROM_VAR to the signature of 
QEP_getVersion(). 
9.	in file qep.c changed the version number to "3.3.00". 
10.	Updated the "QP Programmer's Manaul" to Revision E

----------------------------------------------------------------
Version 3.2.01 (Product)
Release date: Sep 01, 2006

1.	In file qep.c updated version number to 3.2.01 
2.	Added makefiles for building ports of all QP/C 
libraries at once. 
3.	Created the consolidated manual "QP/C Programmer's 
Manual".
Version 3.2.00 (Product)
Release date: Aug 07, 2006
1.	In file qep.h added the default definition of Q_ROM 
in case it's not defined by the user. 
2.	In file qassert.h added the macro Q_ROM to allocate 
constant strings to ROM. 
3.	In file qep.c updated version number to 3.2.00 
4.	Updated the "QEP/C Programmer's Manual".

----------------------------------------------------------------
Version 3.1.02 (Product)
Release date: Feb 08, 2006

1.	In file qep.c added the Revision History Doxygen 
comment, which was previously in doxygen/qp.h 
2.	updated the QBomb example to use the key events 
described in the "QEP/C Programmer's 
Manual" 
3.	changed C++ comments to C-comments in main.c of the 
QHsmTst example

----------------------------------------------------------------
Version 3.1.01 (Product)
Release date: Oct 18, 2005

1.	Removed Quantum Spy (QS) dependency from the examples
Version 3.1.00 (Beta3)
Release date: Oct 03, 2005
1.	Applied new directory structure desribed in 
Application Note: QP Directory Structure 
2.	Added Quantum Spy instrumentation. 
3.	Removed file qfsm_tra.c. 
4.	Introduced file qfsm_dis.c.

----------------------------------------------------------------
Version 3.0.11 (Beta2)
Release date: Aug 14, 2005

1.	Fixed potential race condition for static transitions 
2.	Changed names of helper function 
QFsm_tran_()/QHsm_tran_() to 
QFsm_execTran()/QHsm_execTran() to match the QEP/C++ 
version. 
3.	Added assertion in QHsm_execTran() to catch potential 
path[] array overrun that previously 
could go undetected.

----------------------------------------------------------------
Version 3.0.10 (Beta1)
Release date: Aug 06, 2005

This release contains completely redesigned Quantum Event 
Processor (QEP). The main focus is on compliance with 
standards (MISRA, Lint, Coding Standard), better 
portability, stack-use efficiency. 
1.	This release includes a comprehensive "QEP/C v3.0 
Programmer's Manual" in PDF. 
2.	This release contains in-source comments for 
automatic generation of this Reference 
Manual with doxygen. 
3.	This release includes re-packaging the code into much 
larger number of modules (.c files) with typically one 
function per module. This fine-granularity packaging allows 
for better automatic elimination of unused code at link 
time and fine-tuning by applying different 
compiler options to different files. 
4.	This release is 98% compliant with the Motor Industry 
Software Reliability Association (MISRA) "Guidelines for 
the Use of the C Language in Vehicle Based Software", April 
1998, ISBN 0-9524156-9-0 (see also See also 
http://www.misra.org.uk). A separate Application Note 
"QEP/C MISRA Compliance Matrix" contains detailed account 
how QEP/C compiles with the 127 MISRA rules (See 
http://www.quantum-leaps.com/doc/AN_QP_C_MISRA.pdf). 
5.	This release is now "lint-free". The source code has 
been thoroughly checked with the latest version of PC-
lint(TM) (version 8.00q) from Gimpel Software 
(www.gimpel.com). The PC-lint configuration files and 
output files are included in the distribution. A separate 
Application Note "QEP/C PC-Lint Compliance" contains 
detailed account how QEP/C compiles with PC-
Lint. (See http://www.quantum-leaps.com/doc/AN_QP_C_PC-
Lint.pdf). 
6.	This release is compliant with the "Quantum Leaps 
Coding C/C++ Standard" (http://www.quantum-
leaps.com/resources/QL_coding_standard.pdf). Among others, 
all public names are prefixed by "Q_", or "QEP_" to 
minimize compile-time and link-time name conflicts. In 
addition, QEP/C uses the C99 standard include file 
<stdint.h> (C99 Standard, Section 7.18). Pre-standard 
compilers are still supported by placing <stdint.h> in the 
compiler's header file directory. 
7.	The QEvent structure has been redesigned to use 
memory more efficiently. QEvent takes up 
only 2 bytes now. 
8.	The QHsm structure now derives from the QFsm 
structure, which promotes better code reuse. In particular, 
macros Q_INIT() and Q_TRAN() are now common for both 
traditional non-hierarchical FSMs and for HSMs. 
9.	The QFsm class has been redesigned to allow using 
entry and exit actions. Now the QFsm class strictly avoids 
recursion, just as QHsm does (MISRA rule 70). 
10.	The QPseudoState type has been eliminated and 
replaced by QState. 
11.	The central QHsm class in QEP has been completely 
redesigned. The basic transition algorithm is essentially 
the same as described in "PSiCC", however the 
implementation is very different. The redesign was 
necessary to comply with the MISRA rules and to eliminate 
Lint warnings. 
12.	The event processor is now strictly non-recursive 
(MISRA rule 70), that is, event handlers never call 
themselves, even indirectly. (Previous algorithm required 
one-level of indirect recursion.) 
13.	Dynamic state transition is now default. Static 
transition optimization is still supported, but considered 
optional for performance tuning. 
14.	The artificial limitation of initial transitions 
targeting only immediate substate of a composite state has 
been removed (see "PSiCC" Figure 5.4[a]). Initial 
transitions can now target any substate, arbitrarily nested 
within the composite state. 
15.	This distribution uses the legacy Borland Turbo C++ 
1.01 as the default compiler. Port to DOS with Turbo C++ 
1.01 is provided along with GNU-compatible makefiles for 
the QEP library and sample applications. This compiler is 
not C99-compliant and does not provide the <stdint.h> 
header file. However, the port of QEP includes a minimal 
<stdint.h>, which should be placed into the INCLUDE 
directory of the Borland Turbo C++ 1.01 installation. 
16.	This distribution contains three sample applications: 
A simple time bomb (QBomb) to demonstrate use of QFsm, a 
calculator (QCalc), and an exhaustive test of the QHsm 
class (QHsmTst). All examples are implemented as text-only 
application compiled with Turbo C++ 1.01. The QHsmTst 
sample application supports interactive and batch mode for 
exhaustive testing of the event processor. The source code 
for QHsmTst demonstrates also how QEP/C application code 
can be MISRA-compliant. 
17.	This distribution contains make files for the Turbo 
C++ 1.01 make utility, as well as GNU-compatible Makefiles. 


QF/C Revision History
=====================

Version 3.3.01 (Product)
Release date: Mar 17, 2007

The changes in this release are only cosmetic and include
adding the 'U' suffix (unsigned) to several numerical literals
to avoid MPLAB C18 compiler warnings. 

The changes in release 3.3.01 have NO impact on the existing
QP/C ports.

1. added the 'U' suffix to several numerical literals in files:
qa_defer.c, qa_usuba.c, qf_gc.c, qf_pool.c, qf_run.c
2. in file qf_act.c changed the version number to "3.3.01".


Version 3.3.00 (Product)
Release date: Jan 22, 2007

The main change in this release is adding the macro 
Q_ROM_VAR in QEP for all constant objects allocated in ROM. 
The Q_ROM_VAR macro has been added for the compilers like 
Freescale HC(S)08, which require far pointers to access the 
objects in ROM. Please note that specifying the pointer 
size for accessing a ROM objects is syntactically different 
than specifying that the object is allocated in ROM 
(see macro Q_ROM). 
 
The other significant change in release 3.3.00 is 
simplification of the build strategy for QP ports. Instead 
of separate Makefile for every QP component, such as QEP, 
QF, QK, and QS, not the "ports" directory contains a batch 
file "make.bat" that builds all the libraries at once. 

1.	in file qf.h added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of functions accessing 
these objects. 
2.	in file qf.h removed method QF_getTime() and deleted 
external variable QF_tickCtr_. 
3.	deleted obsolete file qa_fifo_.c 
4.	deleted obsolete file qa_lifo_.c 
5.	deleted obsolete file qf_time.c 
6.	in file qf_act.c added Q_ROM_VAR to the signature of 
QEP_getVersion(). 
7.	in file qf_log2.c added Q_ROM_VAR to the definition 
of the lookup table. 
8.	in file qf_pwr2.c added Q_ROM_VAR to the definition 
of the lookup tables. 
9.	in file qf_tick.c removed incrementing QF_tickCtr_. 
10.	In file qf_act.c updated version number to 3.3.00 
11.	Updated the "QP Programmer's Manaul" to Revision E

Version 3.2.05
Release date: Dec 08, 2006

This QF release rolls back the changes made to the 
reference-counting policy. The reference count of a dynamic 
event is incremented when the event is posted, but is NOT 
decremented when the event is retreived from the queue. The 
reference count is decremented only later, in the garbage 
collector (QF_gc()). 

This release adds direct support for event deferral (the 
"Deferred Event" state pattern) through methods 
QActive_defer_() and QActive_recall_().

1.	In file qf.h added methods QActive_defer_() and 
QActive_recall_(). 
2.	In file qa_get_.c removed decrementing the reference 
count of a dynamic event. 
3.	In file qeq_get.c removed decrementing the reference 
count of a dynamic event. 
4.	In file qf_gc.cpp restored decrementing of the 
reference count of a dynamic event. 
5.	Added new file qa_defer.c that implements 
QActive_defer_() and QActive_recall_(). 
6.	In file qf_act.c updated version number to 3.2.05 
7.	Updated the "QP Programmer's Manaul" to Revision D


Version 3.2.04
Release date: Dec 01, 2006

This QF release changes the internal policy of reference-
counting for dynamic events. The reference count of a 
dynamic event is now incremented when the event is posted 
to a queue and decremented when the event is later 
retreived from the queue. This policy pertains to both 
active object queues and native QF thread-safe queues 
(QEQueue).Previously, the reference count of a dynamic 
event was not decremented upon retrieval of the event from 
the event queue, but rather in the garbage collector 
(QF_gc()).

1.	In file qf.h eliminated methods QActive_postFIFO_() 
and QActive_postLIFO_(). 
2.	In file qf.h changed method QActive_get__() to 
QActive_get_() (protected scope) to make it available to 
various thread-run routines. 
3.	In file qa_fifo.c changed the implementation of 
QActive_postFIFO() to represent the native QF event queue 
of an active object. 
4.	In file qa_fifo_.c removed the implementation of 
QActive_postFIFO__() and declared the file obsolete (will 
be removed in future releases). 
5.	In file qa_lifo.c changed the implementation of 
QActive_postLIFO() to represent the native QF event queue 
of an active object. 
6.	In file qa_lifo_.c removed the implementation of 
QActive_postLIFO__() and declared the file obsolete (will 
be removed in future releases). 
7.	In file qa_get_.cpp added decrementing the reference 
count of a dynamic event. 
8.	In file qf_gc.c removed decrementing of the reference 
count of a dynamic event. Also changed the test for 
recycling an event (reference count of zero). 
9.	In file qf_pspub.c removed incrementing the reference 
count of a dynamic event. 
10.	Removed all uses of the macros QACTIVE_POST_FIFO_, 
QACTIVE_POST_LIFO_, and QACTIVE_GET_. These macros are made 
now obsolete. 
11.	In file qsched.h removed definitions of the obsolete 
macros QACTIVE_POST_FIFO_, QACTIVE_POST_LIFO_, and 
QACTIVE_GET_. 
12.	In file qf_pspub.c replaced the macro 
QACTIVE_POST_FIFO_() with the direct call to the function 
QActive_postFIFO(QF_active_[p], e). 
13.	In file qf_tick.c replaced the macro 
QACTIVE_POST_FIFO_() with the direct call to the function 
QActive_postFIFO(QF_active_[p], e). 
14.	Changed the uC/OS-II port to reflect new policy of 
handling reference counters inside the dynamic events. Also 
removed files qa_fifo.c and qa_lifo.c from the uC/OS-II 
build. 
15.	In file qf_act.c updated version number to 3.2.04 
16.	Updated the "QP Programmer's Manaul" to Revision C


Version 3.2.03 (Product)
Release date: Nov 15, 2006

The main purpose of this release is to adapt the code to 
the shortcomings of the gcc compiler for handling data in 
program ROM for Harvard architecture CPUs, such as the 
Atmel's AVR or the 8051. In such machines, the data space 
(RAM) and program space (ROM) are accessed with different 
instructions. The gcc compiler does not automatically 
synthesize the correct code for accessing data placed in 
the program ROM, even though __attribute__((__progmem__)) 
is used. The workaround for the gcc is to add special 
assembly instructions to transfer the data from the program 
space to the data space. This version of QP-nano adds 
macros for each data element allocated to the program space 
(delcared with the Q_ROM attribute). Please note that 
commercial compilers, such as IAR, handle data allocated in 
the program space (ROM) correctly and do not need any 
workarounds.This release also fixes a few minor 
inconsistencies in the code (see the list below):\ 

1.	In file qf.h added default definition of macro 
Q_ROM_BYTE 
2.	In file qf_set.h added macro Q_ROM_BYTE to access the 
lookup tables allocated in ROM 
(several places). 
3.	In file qf_sched.h changed types QF_OS_OBJECT_TYPE 
and QF_THREAD_TYPE to 
uint8_t from int8_t 
4.	In file qs_dummy.h added dummy definitions of some 
missing QS macros 
5.	In file qa_sub.c added macro Q_ROM_BYTE to access the 
lookup tables allocated in ROM 
(several places). 
6.	In file qa_usub.c added macro Q_ROM_BYTE to access 
the lookup tables allocated in 
ROM (several places). 
7.	In file qf_usuba.c added macro Q_ROM_BYTE to access 
the lookup tables allocated in ROM 
(several places). 
8.	In file qf_pspub.c added macro Q_ROM_BYTE to access 
the lookup tables allocated in 
ROM (several places). 
9.	In file qf_act.c updated version number to 3.2.03


Version 3.2.01 (Product)
Release date: Sep 01, 2006

1.	In file qf_act.c updated version number to 3.2.01 
2.	Added makefiles for building ports of all QP/C 
libraries at once. 
3.	Created the consolidated manual "QP/C Programmer's 
Manual".


Version 3.2.00 (Product Release)
Release date: Aug 07, 2006

1.	In file qf.h changed the semantics of the QF_onIdle() 
callback. This callback is now invoked with interrupts 
LOCKED from the non-preemptive scheduler used in the 
"vanilla" QF ports to "bare metal" target boards. 
 
The modification changes the responsibilities of 
QF_onIdle(), which now MUST at least unlock interrupts. A 
failure to unlock interrupts in QF_onIdle() will leave the 
interrupts locked all the time and would prevent the 
application from running. 
 
Also, the signature of QF_onIdle() now depends on the 
interrupt locking policy. In case of the "save and restore 
interrupt status" policy, the QF_onIdle() callback takes 
the interrupt lock key as parameter (to be able to unlock 
the interrupts correctly). 

2.	In file qf.h used the macro Q_ROM to allocate 
constant objects to ROM ( 
See also: 
qep.h). Objects allocated to ROM are: the version strings, 
and the lookup tables 
(QF_log2Lkup[], QF_pwr2Lkup[], QF_invPwr2Lkup, and 
QF_div8Lkup[].
3.	Added new platform-independent header file qsched.h 
to provide the interface to the simple non-preemptive 
scheduler used in the "vanilla" ports of QF to "bare metal" 
targets. This 
header file is only applicable to the "vanilla" ports. 
4.	Added new platform-independent implementation file 
qf_run.c to implement the simple non-preemptive scheduler 
used in the "vanilla" ports of QF to "bare metal" targets. 
This implementation file eliminates the need for qf_port.c 
file in the "vanilla" ports of QF. Also, the qf_run.c 
module should only be placed in the QF library in the 
vanilla QF ports. 
5.	Simplified all "vanilla" ports of QF to use the 
common platform- independent implementation provided in 
qf_run.c. 
6.	Updated QF_onIdle() callback in all examples of 
"vanilla" ports of QF to unlock interrupts. 
7.	Modified file qf_pspub.c to allow allocating a 
temporary stack variable inside the macro 
QF_SCHED_LOCK(). This change is related to modification in 
QK v 3.2.00. 
8.	Updated the "QF/C Programmer's Manual".


Version 3.1.06 (Product Release)
Release date: Jul 14, 2006

1.	In file qf.h added function QF_stop() to be called 
from the application code to stop the framework. 
2.	In file qf.h added callback function QF_cleanup() to 
be called from the QF port to cleanup before exiting to the 
OS. 
3.	In file qf.h deprecated the function QF_exit().


Version 3.1.05 (Product Release)
Release date: Feb 08, 2006

1.	In file qf_act.c added the Revision History Doxygen 
comment, which was previously in doxygen/qp.h 
2.	In file qf.h augmented comment for QF_run() to cover 
the case when QF is used with QK. 
3.	In file qf.h added the extern declarations of 
QF_tickCtr_, QF_intLockNest, and QF_isrNest_, 
which were previously declared in qf_pkg.h. 
4.	In file qf.h added macros QF_QS_INT_LOCK, 
QF_QS_INT_UNLOCK(), 
QF_QS_ISR_ENTRY, and QF_QS_ISR_EXIT, which were previously 
declared in qs_port.h. 
5.	In file ports/linux/gcc/qf_port.h added extern 
uint8_t QF_running_. 
6.	In file qf/80x86/dos/tcpp101/l/qf_port.c replaced 
deprecated QPSet_hasElements() to 
QPSet_isEmpty(). 
7.	In file qf/80x86/linux/gcc/qf_port.c added QF_run() 
8.	In file qeq_init.c:186 changed QS_OBJ(me) to 
QS_OBJ(qSto) to consistently refer to a 
queue by the ring buffer object 
9.	In file qf_pkg.h removed extern QF_tickCtr_.


Version 3.1.04 (Product Release)
Release date: Dec 08, 2005

1.	In file qmpool.h changed the definition of the 
QF_MPOOL_SIZ_SIZE macro to remove the dependency on the 
QF_EVENT_SIZ_SIZE. Macro QF_EVENT_SIZ_SIZE might not be 
defined by the time qmpool.h is included. 
2.	Added explicit definition of the configuration macro 
QF_EVENT_SIZ_SIZE to all qf_port.h 
files. 
3.	Fixed a bug in function QMPool_init() (file 
qmp_init.c) by changing the type of variable n 
from uint8_t to QMPoolCtr. The uint8_t data type was 
failing for bigger block sizes. 
4.	Added the QF_onIdle() callback to qf.h 
5.	Improved comments in qpset.h 
6.	Corrected dependencies in the Makefile for QDPP 
example (directory 80x86/dos/tcpp101/l and 
80x86/dos/tcpp101/s) 
7.	Added Linux QF port to the standard QF/C 
distribution. 
8.	Released the "QF/C Programmer's Manual"


Version 3.1.03 (Beta1 Release)
Release date: Nov 18, 2005

1.	Added Doxygen documentation to the source code 
2.	Added running__ member to the QActive structure 
3.	Added QF_EVENT_SIZ_SIZE configuration macro and 
related data type QEventSize. Made the following changes to 
the signatures: void QF_poolInit(void *poolSto, uint32_t 
poolSize, QEventSize evtSize); QEvent *QF_new_(QEventSize 
evtSize, QSignal sig); 
4.	Changed the name of protected function from QF_new() 
to QF_new_().


Version 3.1.00 (Snapshot Release)
Release date: Oct 10, 2005

1.	Applied new directory structure desribed in 
Application Note: QP Directory Structure 
2.	Added Quantum Spy instrumentation. 


QK/C Revision History
======================

Version 3.3.01 (Product)
Release date: Mar 17, 2007

The changes in this release are only cosmetic and include
adding the explicit casting to several numerical literals
to avoid MPLAB C18 compiler warnings.

The changes in release 3.3.01 have NO impact on the
existing QP/C ports.

1. added the cast to (uint8_t) to several numerical literals
in the file qk.c.
2. in file qk.c changed the version number to "3.3.01".


Version 3.3.00 (Product)
Release date: Jan 22, 2007

The main change in this release is adding the macro 
Q_ROM_VAR in QEP for all constant objects allocated in ROM. 
The Q_ROM_VAR macro has been added for the compilers like 
Freescale HC(S)08, which require far pointers to access the 
objects in ROM. Please note that specifying the pointer 
size for accessing a ROM objects is syntactically different 
than specifying that the object is allocated in ROM (see 
macro Q_ROM). 
 
The other significant change in release 3.3.00 is 
simplification of the build strategy for QP ports. Instead 
of separate Makefile for every QP component, such as QEP, 
QF, QK, and QS, not the "ports" directory contains a batch 
file "make.bat" that builds all the libraries at once. 

1.	in file qk.h added macro Q_ROM_VAR for objects 
allocated in ROM and to signatures of 
functions accessing these objects. 
2.	In file qk.c added Q_ROM_VAR to the signature of 
QK_getVersion(). 
3.	In file qk.c updated version number to 3.3.00 
4.	Updated the "QP Programmer's Manaul" to Revision E


Version 3.2.04
Release date: Dec 01, 2006

This QK release adds two new features in QK.The first 
feature added is the extended context switch for CPUs with 
co-processors, such as the x87 FPU accompanying the x86 
CPU. As a fully- preemptive kernel, QK needs to save and 
restore the context of the co- processor accrosss the 
asynchronous preemption. This QK release adds a generic 
mechanism for saving and restoring extened context in the 
extended scheduler (QK_scheduleExt_()), which is used only 
at the exit from the interrupts (asynchronous 
preemptions).The second feature added is the Thread-Local 
Storage (TLS) for reentrant libraries, such as the NewLib. 
This feature allows assigning per-thread memory and 
providing a hook (callback) activated at every context 
switch. 

1.	In file qk.h updated revision history and added the 
prototype for the extended scheduler QK_scheduleExt_(). 
This scheduler implements the generic extended context via 
macros QK_EXT_TYPE, QK_EXT_SAVE, and QK_EXT_RESTORE. 
2.	In file qk.h removed definitions of the obsolete 
macros QACTIVE_POST_FIFO_, QACTIVE_POST_LIFO_, and 
QACTIVE_GET_. 
3.	In file qk_sched.c added logic for handling the TLS 
via the macro QK_TLS. 
4.	Added new file qk_ext.c with the definition of the 
extended scheduler QK_scheduleExt_(). 
5.	Added the file qk_ext.c to the Makefile for QK port 
to 80x86 with Turbo C++ 1.01. 
6.	Extended the QK port to 80x86 with Turbo C++ 1.01 to 
handle the x87 FPU context. 
7.	Extended the QDPP example for QK with Turbo C++ 1.01 
to demonstrate threads that use 
the FPU and require the extended context switch. 
8.	In file qk.c updated version number to 3.2.04 
9.	Updated the "QP Programmer's Manaul" to Revision C


Version 3.2.01 (Product)
Release date: Sep 01, 2006

1.	In file qk.c updated version number to 3.2.01 
2.	Added makefiles for building ports of all QP/C 
libraries at once. 
3.	Created the consolidated manual "QP/C Programmer's 
Manual".


Version 3.2.00 (Product Release)
Release date: Aug 04, 2006

1.	in file qk.h added new idle callback QK_onIdle(), 
which in contrast to QF_onIdle() is invoked with interrupts 
unlocked. 
2.	in file qk.h removed QK_schedLock()/QK_schedUnlock() 
and replaced them with QK_mutexLock()/QK_mutexUnlock(), 
with the semantics of returning the mutex. 
3.	in file qk.h changed the definitions of macros 
QF_SCHED_LOCK/ QF_SCHED_UNLOCK to 
use the new QK mutex API. 
4.	In file qk.h used the macro Q_ROM to allocate 
constant objects to ROM ( See also: qep.h).
5.	in file qk.h added the typedef for QMutex. 
6.	in file qk.c replaced the callback QF_onIdle() with 
the new one QK_onIdle(). 
7.	removed source file qk_lock.c 
8.	added source file qk_mutex.c 
9.	in file qk.c changed the version number to 3.2.00 
10.	Updated "QK/C Programmer's Manual"


Version 3.1.06 (Product Release)
Release date: May 11, 2006

1.	In file qk_sched.c removed unlocking of interrupts 
upon exit from QK_schedule_(). Now QK_schedule_() enters 
and exits with interrupts LOCKED. 
2.	In file qk.h modified macro 
QACTIVE_OSOBJECT_SIGNAL_() to always unlock the interrupts, 
regardless if QK_schedule_() has been called or not. 
3.	In file qk.c added unlocking interrupts after the 
call to QK_SCHEDULE_() in the function 
QF_run(). 
4.	In file qk_lock.c modified the function 
QK_schedUnlock() to always unlock the interrupts upon exit.


Version 3.1.05 (Product Release)
Release date: Feb 08, 2006

1.	In file qk.h removed extern QK_intLockNest_ and 
QK_isrNest_. These counters have been moved to QF and 
renamed in the process to QF_intLockNest_ and QF_isrNest_, 
respectively. 
2.	In file qk.h added QS instrumentatin to QF_INT_LOCK 
and QF_INT_UNLOCK macros for tracing interrupt 
locking/unlocking. The QS interrupt locking/ unlocking 
instrumentation has been previously added at the QK port 
level. 
3.	In file qk.h removed macros QK_QS_INT_LOCK()/ 
QK_QS_INT_UNLOCK(), QK_QS_ISR_ENTRY()/ QK_QS_ISR_EXIT(). 
These macros have been moved to QF and renamed in the 
process to QF_QS_INT_LOCK()/ QF_QS_INT_UNLOCK(), 
QF_QS_ISR_ENTRY()/ QF_QS_ISR_EXIT(), respectively. 
4.	In file ports/80x86/qk/tcpp101/l/qk_port.h simplified 
the definition of the macros QK_INT_LOCK/ QK_INT_UNLOCK to 
NOT contain the QS instrumenation. 
5.	In file ports/80x86/qk/tcpp101/l/qk_port.h changed 
the definitions of QK_ISR_ENTRY and QK_ISR_EXIT to use 
QF_QS_ISR_ENTRY/ QF_QS_ISR_EXIT. 
6.	In file qk.c added the Revision History Doxygen 
comment 
7.	In file qk_pkg.h changed the definition of internal 
QK macros QK_INT_LOCK_/ QK_INT_UNLOCK_ to use the QS-
instrumented QF_INT_LOCK/ QF_INT_UNLOCK. 
8.	In file qk_lock.c corrected a comment 
9.	In file qk_sched.c corrected a comment


Version 3.1.04 (Product Release)
Release date: Dec 28, 2005

1.	Provided "QK/C Programmer's Manual" in PDF. 2.	In 
file qk.h removed callbacks QK_init(), QK_start(), 
QK_idle(), QK_exit(), because they duplicate the QF 
callbacks. 
3.	Modified qk.c to define the following QF "callbacks": 
QF_getPortVersion(), QF_run(), QActive_start(), and 
QActive_stop_(). 
4.	Added an argument to the signature of QK_schedLock() 
to allow selective QK scheduler locking up to the specified 
priority level. 
5.	Changed the implementation of QK_schedLock() in file 
qk_lock.c. 
6.	Eliminated the need for qf_port.c in the QF/C ports 
for QK. 
7.	Simplified elements that go into qk_port.c in the 
QK/C ports. 
8.	Added the ARM-Simulator port to the standard QK/C 
distribution. 
9.	Cleaned-up the 80x86 QK port.


Version 3.1.03 (Beta Release)
Release date: Nov 18, 2005

1.	Added Doxygen documentation to the source code 



QS/C Revision History
=====================

Version 3.3.01 (Product)
Release date: Mar 17, 2007

The changes in this release are only cosmetic and include
adding the 'U' suffix (unsigned) to several numerical
literals to avoid MPLAB C18 compiler warnings.
 
The changes in release 3.3.01 have NO impact on the
existing QP/C ports.

1. added the 'U' suffix to several numerical literals
in file qs.h.
2. in files qs_.c and qs_str.c added explicit casting
to (char const).
3. in file qs.c changed the version number to "3.3.01".


Version 3.3.00 (Product)
Release date: Jan 25, 2007

The main change in the release 3.3.00 is better integration 
of QS with the rest of QP. This is achieved by using the QP 
macros Q_ROM, Q_ROM_VAR, QF_INT_KEY_TYPE, QF_INT_LOCK, and 
QF_INT_UNLOCK. By simply including the header file 
"qf_port.h" before "qs.h" in the "qs_port.h" include, you 
no longer need to manually ensure that QS implements the 
same policies as the rest of QP. This change still allows 
using QS standalone (without any other QP components), but 
then the QP macros must be explicitly defined in the 
qs_port.h header file. 
 
The other significant change in release 3.3.00 is adding 
the macro QS_ROM_VAR for all constant objects allocated in 
ROM (see also macro Q_ROM_VAR added to QEP). The QS_ROM_VAR 
macro has been added for the compilers like Freescale 
HC(S)08, which require far pointers to access the 
objects in ROM. Please note that specifying the pointer 
size for accessing a ROM objects is syntactically different 
than specifying that the object is allocated in ROM (see 
macro Q_ROM).

1.	in file qs.h added macro QS_ROM_VAR for objects 
allocated in ROM and to signatures of functions accessing 
these objects. 
2.	In file qs.h added default definitions of the QS 
macros Q_ROM, Q_ROM_VAR, and Q_ROM_BYTE. 
3.	In file qs.h added declaration of QS_tickCtr_. 
4.	In file qs.c added Q_ROM_VAR to the signature of 
QS_getVersion(). 
5.	In file qs_.c added Q_ROM_VAR to the signature of 
QS_str_ROM_(). 
6.	In file qs_.c added definition of QS_tickCtr_. 
7.	In file qs_str.c added Q_ROM_VAR to the signature of 
QS_str_ROM(). 
8.	In file qs.c updated version number to 3.3.00 
9.	Updated the "QP Programmer's Manaul" to Revision E


Version 3.2.05 (Product)
Release date: Jan 16, 2007

The main purpose of this release is to adapt the code to 
the specifics of the Keil C51 compiler for 8051/251. In 
particular, the C51 compiler treats the identifier "data" 
as an extended keyword. To make the QS code compile with 
C51, all "data" used as a formal function parameter have 
been renamed. Additionally, this release fixes a minor bug 
in the QS_FUN_DICTIONARY macro. 

1.	In file qs.h removed all instances of indentifier 
"data" 
2.	In file qs.h fixed a bug in the definition of macro 
QS_FUN_DICTIONARY. 
3.	In file qs_.c renamed all instances of identifier 
"data". 
4.	In file qs_f32.c renamed all instances of identifier 
"data". 
5.	In file qs_f64.c renamed all instances of identifier 
"data". 
6.	In file qs.c, in functions QS_filterOn() and 
QS_filterOff() moved the declaration of the temporary 
variable 'i' from the inner scope to the function scope. 
The C51 compiler was crushing with variables at inner 
scope. 
7.	In file qs.c updated version number to 3.2.05


Version 3.2.03 (Product)
Release date: Nov 15, 2006

The main purpose of this release is to adapt the code to 
the shortcomings of the gcc compiler for handling data in 
program ROM for Harvard architecture CPUs, such as the 
Atmel's AVR or the 8051. In such machines, the data space 
(RAM) and program space (ROM) are accessed with different 
instructions. The gcc compiler does not automatically 
synthesize the correct code for accessing data placed in 
the program ROM, even though __attribute__((__progmem__)) 
is used. The workaround for the gcc is to add special 
assembly instructions to transfer the data from the program 
space to the data space. This version of QP-nano adds 
macros for each data element allocated to the program space 
(delcared with the Q_ROM attribute). Please note that 
commercial compilers, such as IAR, handle data allocated in 
the program space (ROM) correctly and do not need any 
workarounds.

This release also fixes a few minor inconsistencies in the 
code (see the list below):

1.	In file qs_pkg.h added default definition of macro 
Q_ROM_BYTE 
2.	In file qa_sub.c added macro Q_ROM_BYTE to access the 
lookup tables allocated in ROM 
(several places). 
3.	In file qs_.c added macro Q_ROM_BYTE to access the 
string allocated in ROM 
4.	In file qs_str.c added macro Q_ROM_BYTE to access the 
string allocated in ROM. 
5.	In file qs.h changed the include file name from 
"qs_dummy" to "qs_dummy.h". 
6.	In file qs.c updated version number to 3.2.03


Version 3.2.02 (Product)
Release date: Oct 30, 2006

1.	In file qs.h replaced macro Q_ROM with QS_ROM 
2.	In file qs.h added methods QS_str_ROM_() and 
QS_str_ROM() 
3.	In file qs.h added macros QS_STR_ROM_() and 
QS_STR_ROM() 
4.	In file qs.h modified macros QS_???_DICTIONARY() to 
use ROM strings 
5.	In file qs.h included qs_dummy.h instead of the dummy 
definitions of the QS macros 
6.	In file qs_pkg.h added ifndef Q_SPY before definition 
of macro Q_SPY 
7.	In file qs_.c added definition of the function 
QS_str_ROM_() 
8.	In file qs_str.cpp added definition of the function 
QS_str_ROM() 
9.	In file qs.c updated version number to 3.2.02


Version 3.2.01 (Product)
Release date: Sep 01, 2006

1.	In file qs.c updated version number to 3.2.01 
2.	In file qs.c removed superfluous semicolons after 
QS_INSERT...() macros 
3.	In file qs_.c removed superfluous semicolons after 
QS_INSERT...() macros 
4.	In file qs_str.c removed superfluous semicolons after 
QS_INSERT...() macros 
5.	In file qs_mem.c removed superfluous semicolons after 
QS_INSERT...() macros 
6.	In file qs_f32.c removed superfluous semicolons after 
QS_INSERT...() macros 
7.	In file qs_f64.c removed superfluous semicolons after 
QS_INSERT...() macros 
8.	Added makefiles for building ports of all QP/C 
libraries at once. 
9.	Created the consolidated manual "QP/C Programmer's 
Manual".


Version 3.2.00 (Commercial Release)
Release date: Aug 07, 2006

1.	In file qs.h replaced QS_QK_SCHED_LOCK/UNLOCK with 
QS_QK_MUTEX_LOCK/UNLOCK. Also, changed data accompanying 
the trace records QS_QK_MUTEX_LOCK/UNLOCK. 
2.	In file qs.h used the macro Q_ROM to allocate 
constant objects to ROM ( See also: qep.h).
3.	in file qs.c changed the version number to 3.2.00 
4.	Updated "QS/C Programmer's Manual" in PDF.


Version 3.1.06 (Commercial Release)
Release date: May 07, 2006

1.	Updated licensing information. 
2.	Updated "QS Programmer's Manual" in PDF.


Version 3.1.05 (Product Release)
Release date: Feb 08, 2006

1.	Provided "QS/C Programmer's Manual" in PDF. 
2.	In file qs.h changed around the pre-defined records. 
Added records: QS_QF_INT_LOCK, 
QS_QF_INT_UNLOCK, QS_QF_ISR_ENTRY, QS_QF_ISR_EXIT. Removed 
records 
QS_QK_INT_LOCK, QS_QK_INT_UNLOCK, QS_QK_ISR_ENTRY, 
QS_QK_ISR_EXIT. 
3.	In file qs.h renamed functions QS_filterIn()/ 
QS_filerOut() to QS_filterOn()/ QS_filerOff(). 
Correspondingly, changed macros QS_FILTER_IN(), 
QS_FILTER_OUT(), to QS_FILTER_ON(), QS_FILTER_OFF(). 
4.	In file qs.h changed the signature and semantics of 
QS_getByte() to return QS_EOD (End-
Of-Data). 
5.	In file qs.h changed the signature of QS_getBlock() 
to take a pointer to uint16_t rather than uint32_t. 
6.	In file qs.h eliminated the callback QS_newRecord() 
7.	In file qs.h added new callback QS_flush() 
8.	In file qs.h added application-level local filter 
object QS_apObj_. Consistently, added macro 
QS_FILTER_AP_OBJ() to set the new local filter. 
Consistently, added object argument to macros QS_BEGIN() 
and QS_BEGIN_NOLOCK(). 
9.	In files qs.c, qs_.c, qs_blk.c, qs_byte.c, qs_pkg.h 
renamed some variables and adjusted comments. 
10.	Ported the QSpy host applicatoin to Linux. Added 
TCP/IP input to QSpy. Added new options. 
11.	Added redesigned QS port to Linux with TCP/IP data 
link.


Version 3.1.03 (Beta Release)
Release date: Nov 18, 2005

1.	Added Doxygen documentation to the source code 
2.	Renamed file qqs.c to qs_.c

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About QP/C ========== QP/C is an event-driven, RTOS-like, active object framework for microcontrollers. The QP/C framework provides thread-safe execution of active objects (concurrent state machines) and supports both manual and automatic coding of UML statecharts in readable, production-quality ANSI-C. Automatic code generation for QP/... 展开 收起
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