doc/README.evc3 - platform/external/stlport - Git at Google


 ========================================
 STLport README for eMbedded Visual C++ 3
 ========================================

 by: Michael Fink, vividos@users.sourceforge.net, last edited 2005-11-15

 ============
 Introduction
 ============
 This document describes how STLport can be compiled and used with Microsoft
 eMbedded Visual C++ 3.

 For any further comments or questsion visit STLport mailing lists
 http://stlport.sourceforge.net/Maillists.shtml or forums
 https://sourceforge.net/forum/?group_id=146814


 =============
 Prerequisites
 =============
 To build and use STLport you will need following tools and libraries:
  - eMbedded Visual C++ 3.0
  - latest CVS version of STLport, use info from page
    'http://stlport.sourceforge.net/CVS.shtml' to get it.
    Note that you may have to get a different branch, please check out the
    STLport forum "Announcements" which sourcecode is being worked on.

 ================
 Building STLport
 ================
 Note: if you don't plan to use the iostreams part of STLport (via the define
 _STLP_NO_IOSTREAMS), you don't have to build the library. You can skip straight
 to the "Using STLport" section.

 If you want to compile for the Pocket PC 2002 SDK (which in most cases you want)
 be sure to set the PLATFORM environment variable to "Pocket PC 2002", e.g. with
 this command:

   set PLATFORM=Pocket PC 2002

 Open a command line prompt and execute the batch file that sets up compiling
 for ARM or x86 processors. These files usually are in a folder like
 'C:\Program Files\Windows CE eMbedded Tools\EVC\WCE300\BIN\' and are called
 WCEARM.bat and WCEx86.bat. Check if the environment variables are set up
 properly after that call. You can also adjust the batch files to have the
 PLATFORM variable set automatically.

 Go into STLport's 'build\lib' folder and type:

   configure.bat -c evc3

 The makefiles are configured with the given settings. Call configure.bat with
 the --help option to see all options. The program automatically tells you which
 command line to use. If you want to install the libraries, add the "install"
 target as follows:

   nmake /fmsvc.mak install

 All libraries (debug, stldebug, release) are now built, static and shared
 ones. Import libraries (.lib files) are put in the 'lib\evc3-arm' folder, DLLs
 are put in the 'bin\evc3-arm' folder. If you use another target platform, the
 name of the folder is changed accordingly, e.g. evc3-x86 for emulator files.

 Once STLport is built you can decrease the size of the STLport folder by
 removing intermediate build files. This is done with the following command:

   nmake /fmsvc.mak clobber

 Note: MIPS platform is also available for build, but it may not compile or work
       properly. Use with caution!

 ===============
 Testing STLport
 ===============
 You can use the unit tests to verify STLport behaves correctly. Change into
 STLports 'build\test\unit' folder and type:

   nmake /fmsvc.mak install

 If you want to build the unit tests for the emulator, you have to reconfigure
 STLport with the configure.bat, as described above.

 Once the unit tests are built, upload the binary (found in the 'bin\evc3-arm'
 folder) to your device or emulator and start it (the test runs for about 30
 seconds, depending on the speed of the device). The file 'stlp_test.txt' is
 created in the root folder of the device, which contains the unit test
 results. It should report no errors.

 =============
 Using STLport
 =============
 Adjust your include and link paths in eVC3 in 'Tools -> Options -> Directories'
 and add the paths for all platforms and CPUs on which you want to use STLport.
 In the include files add the path to STLport's 'stlport' folder. Make sure it
 is the first directory listed there. Add STLport's 'lib\evc3-arm' or
 'lib\evc3-x86' (depending on what target you use) folder for the library files
 (order of paths doesn't matter here).

 There are some preprocessor defines that control usage of the STLport in evc3
 projects:

 Define the symbol _STLP_USE_STATIC_LIB when you want to statically link against
 STLport. The linker will remove unused classes and methods then, saving some
 space in the executable.

 If you don't want to use the iostreams part of the library, you can specify the
 define _STLP_NO_IOSTREAMS. In this mode there is no need to link against the
 library.

 STLport uses automatic linking to find the proper .lib file. If you want to see
 what import library STLport is going to use, define _STLP_VERBOSE_AUTO_LINK.
 When not using automatic linking (by specifying _STLP_DONT_USE_AUTO_LINK), you
 have to specify the proper .lib file in the Project Settings, on the "link" tab.
 The .lib names have the following syntax:

    stlport(d|stld)[_static].<STLport-Version>.lib

 Examples:

    stlport_static.5.0.lib - static release version, Version 5.0.0
    stlportd_50.lib - dll debug version, Version 5.0.0

 Note that usage of the _STLP_DEBUG mode is currently not recommended for
 eMbedded Visual C++ builds using the ARM compiler, due to a compiler bug.

 When using STLport together with MFC, be sure to include the MFC headers first,
 then include STLport headers, e.g. in your Stdafx.h. This way STLport correctly
 recognizes MFC usage. You also can define the macro _STLP_USE_MFC, either in
 your project settings or in stlport/stl/config/user_config.h.

 Now you should be ready to use STLport.

 ============
 Known issues
 ============
  - Unit Tests in _STLP_DEBUG mode (target 'stldbg-shared') fails in
    __stl_debug_engine::_M_detach() for several tests due to unknown reasons.
    A compiler bug in the ARM compiler is suspected.
    There is currently no workaround for this bug. It is recommended to not use
    _STLP_DEBUG mode.

  - Resource compiler issue:

     The resource compiler is not a C++ compiler, it is a compiler that translates
   resource files, i.e. files that describe dialogs, strings, version information
   and other parts of the GUI on MS Windows systems.

     The problem is that it includes files from the C/C++ include path, and
   STLport uses mechanisms the resource compiler can't handle, e.g. using macro
   names longer than 31 characters.

     The workaround is to guard all affected headers (stdio.h, string.h, stdarg.h,
   stdlib.h, ctype.h) against this. The resource compiler is detected by the
   macro RC_INVOKED.

  - See also README.evc4 issues.

	========================================
	STLport README for eMbedded Visual C++ 3
	========================================

	by: Michael Fink, vividos@users.sourceforge.net, last edited 2005-11-15

	============
	Introduction
	============
	This document describes how STLport can be compiled and used with Microsoft
	eMbedded Visual C++ 3.

	For any further comments or questsion visit STLport mailing lists
	http://stlport.sourceforge.net/Maillists.shtml or forums
	https://sourceforge.net/forum/?group_id=146814


	=============
	Prerequisites
	=============
	To build and use STLport you will need following tools and libraries:
	- eMbedded Visual C++ 3.0
	- latest CVS version of STLport, use info from page
	'http://stlport.sourceforge.net/CVS.shtml' to get it.
	Note that you may have to get a different branch, please check out the
	STLport forum "Announcements" which sourcecode is being worked on.

	================
	Building STLport
	================
	Note: if you don't plan to use the iostreams part of STLport (via the define
	_STLP_NO_IOSTREAMS), you don't have to build the library. You can skip straight
	to the "Using STLport" section.

	If you want to compile for the Pocket PC 2002 SDK (which in most cases you want)
	be sure to set the PLATFORM environment variable to "Pocket PC 2002", e.g. with
	this command:

	set PLATFORM=Pocket PC 2002

	Open a command line prompt and execute the batch file that sets up compiling
	for ARM or x86 processors. These files usually are in a folder like
	'C:\Program Files\Windows CE eMbedded Tools\EVC\WCE300\BIN\' and are called
	WCEARM.bat and WCEx86.bat. Check if the environment variables are set up
	properly after that call. You can also adjust the batch files to have the
	PLATFORM variable set automatically.

	Go into STLport's 'build\lib' folder and type:

	configure.bat -c evc3

	The makefiles are configured with the given settings. Call configure.bat with
	the --help option to see all options. The program automatically tells you which
	command line to use. If you want to install the libraries, add the "install"
	target as follows:

	nmake /fmsvc.mak install

	All libraries (debug, stldebug, release) are now built, static and shared
	ones. Import libraries (.lib files) are put in the 'lib\evc3-arm' folder, DLLs
	are put in the 'bin\evc3-arm' folder. If you use another target platform, the
	name of the folder is changed accordingly, e.g. evc3-x86 for emulator files.

	Once STLport is built you can decrease the size of the STLport folder by
	removing intermediate build files. This is done with the following command:

	nmake /fmsvc.mak clobber

	Note: MIPS platform is also available for build, but it may not compile or work
	properly. Use with caution!

	===============
	Testing STLport
	===============
	You can use the unit tests to verify STLport behaves correctly. Change into
	STLports 'build\test\unit' folder and type:

	nmake /fmsvc.mak install

	If you want to build the unit tests for the emulator, you have to reconfigure
	STLport with the configure.bat, as described above.

	Once the unit tests are built, upload the binary (found in the 'bin\evc3-arm'
	folder) to your device or emulator and start it (the test runs for about 30
	seconds, depending on the speed of the device). The file 'stlp_test.txt' is
	created in the root folder of the device, which contains the unit test
	results. It should report no errors.

	=============
	Using STLport
	=============
	Adjust your include and link paths in eVC3 in 'Tools -> Options -> Directories'
	and add the paths for all platforms and CPUs on which you want to use STLport.
	In the include files add the path to STLport's 'stlport' folder. Make sure it
	is the first directory listed there. Add STLport's 'lib\evc3-arm' or
	'lib\evc3-x86' (depending on what target you use) folder for the library files
	(order of paths doesn't matter here).

	There are some preprocessor defines that control usage of the STLport in evc3
	projects:

	Define the symbol _STLP_USE_STATIC_LIB when you want to statically link against
	STLport. The linker will remove unused classes and methods then, saving some
	space in the executable.

	If you don't want to use the iostreams part of the library, you can specify the
	define _STLP_NO_IOSTREAMS. In this mode there is no need to link against the
	library.

	STLport uses automatic linking to find the proper .lib file. If you want to see
	what import library STLport is going to use, define _STLP_VERBOSE_AUTO_LINK.
	When not using automatic linking (by specifying _STLP_DONT_USE_AUTO_LINK), you
	have to specify the proper .lib file in the Project Settings, on the "link" tab.
	The .lib names have the following syntax:

	stlport(d\|stld)[_static].<STLport-Version>.lib

	Examples:

	stlport_static.5.0.lib - static release version, Version 5.0.0
	stlportd_50.lib - dll debug version, Version 5.0.0

	Note that usage of the _STLP_DEBUG mode is currently not recommended for
	eMbedded Visual C++ builds using the ARM compiler, due to a compiler bug.

	When using STLport together with MFC, be sure to include the MFC headers first,
	then include STLport headers, e.g. in your Stdafx.h. This way STLport correctly
	recognizes MFC usage. You also can define the macro _STLP_USE_MFC, either in
	your project settings or in stlport/stl/config/user_config.h.

	Now you should be ready to use STLport.

	============
	Known issues
	============
	- Unit Tests in _STLP_DEBUG mode (target 'stldbg-shared') fails in
	__stl_debug_engine::_M_detach() for several tests due to unknown reasons.
	A compiler bug in the ARM compiler is suspected.
	There is currently no workaround for this bug. It is recommended to not use
	_STLP_DEBUG mode.

	- Resource compiler issue:

	The resource compiler is not a C++ compiler, it is a compiler that translates
	resource files, i.e. files that describe dialogs, strings, version information
	and other parts of the GUI on MS Windows systems.

	The problem is that it includes files from the C/C++ include path, and
	STLport uses mechanisms the resource compiler can't handle, e.g. using macro
	names longer than 31 characters.

	The workaround is to guard all affected headers (stdio.h, string.h, stdarg.h,
	stdlib.h, ctype.h) against this. The resource compiler is detected by the
	macro RC_INVOKED.

	- See also README.evc4 issues.