Qt:Документация 4.3.2/qtopiacore-crosscompiling
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[править] Cross-Compiling Qtopia Core Applications
Cross-compiling is the process of compiling an application on one machine, producing executable code for a different machine or device. To cross-compile a Qtopia Core application, use the following approach:
- Step 1: Set the Cross-Compiler's Path
- Step 2: Create a Target Specific qmake Specification
- Step 3: Provide Architecture Specific Files
- Step 4: Provide Hardware Drivers
- Step 5: Build the Target Specific Executable
Note that the cross-compiling procedure has the configuration process in common with the installation procedure, i.e., you might not necessarily have to perform all the mentioned actions depending on your current configuration.
[править] Step 1: Set the Cross-Compiler's Path
Specify which cross-compiler to use by setting the PATH environment variable. For example, if the current shell is bash, ksh, zsh or sh:
export PATH=path/to/cross/compiler:$PATH
[править] Step 2: Create a Target Specific qmake Specification
The qmake tool requires a platform and compiler specific qmake.conf file describing the various default values, to generate the appropriate Makefiles. The standard Qtopia Core distribution provides such files for several combinations of platforms and compilers. These files are located in the distribution's mkspecs/qws subdirectory.
Each platform has a default specification. Qtopia Core will use the default specification for the current platform unless told otherwise. To override this behavior, you can use the configure script's -platform option to change the specification for the host platform (where compilation will take place).
The configure script's -xplatform option is used to provide a specification for the target architecture (where the library will be deployed).
For example, to cross-compile an application to run on a device with an ARM architecture, using the GCC toolchain, run the configure script at the command line in the following way:
./configure -embedded arm -xplatform qws/linux-arm-g++ <other options>
If neither of the provided specifications fits your target device, you can create your own. To create a custom qmake.conf file, just copy and customize an already existing file. Пример:
cp path/to/Qtopia/Core/mkspecs/qws/linux-mips-g++/... path/to/Qtopia/Core/mkspecs/qws/linux-myarchitecture-g++/...
Note that it is recommended to copy the entire directory.
Note also that when providing you own qmake specifcation, you must use the configure script's -xplatform option to make Qtopia Core aware of the custom qmake.conf file.
[править] Step 3: Provide Architecture Specific Files
Starting with Qt 4, all of Qt's implicitly shared classes can safely be copied across threads like any other value classes, i.e., they are fully reentrant. This is accomplished by implementing reference counting operations using atomic hardware instructions on all the different platforms supported by Qt.
To support a new architecture, it is important to ensure that these platform-specific atomic operations are implemented in a corresponding header file (qatomic_ARCH.h), and that this file is located in Qt's src/corelib/arch directory. For example, the Intel 80386 implementation is located in src/corelib/arch/qatomic_i386.h.
See the Implementing Atomic Operations documentation for details.
[править] Step 4: Provide Hardware Drivers
Without the proper mouse and keyboard drivers, you will not be able to give any input to your application when it is installed on the target device. You must also ensure that the appropriate screen driver is present to make the server process able to put the application's widgets on screen.
Qtopia Core provides several ready-made mouse, keyboard and screen drivers, see the pointer handling, character input and display management documentation for details.
In addition, custom drivers can be added by deriving from the QWSMouseHandler, QWSKeyboardHandler and QScreen classes respectively, and by creating corresponding plugins to make use of Qt's plugin mechanism (dynamically loading the drivers into the server application at runtime). Note that the plugins must be located in a location where Qt will look for plugins, e.g., the standard plugin directory.
See the How to Create Qt Plugins documentation and the Plug & Paint example for details.
[править] Step 5: Build the Target Specific Executable
Before building the executable, you must specify the target architecture as well as the target specific hardware drivers by running the configure script:
cd path/to/Qtopia/Core ./configure -embedded <architecture> -qt-kbd-<keyboarddriver> -qt-mouse-<mousedriver> -qt-gfx-<screendriver>
It is also important to make sure that all the third party libraries that the application and the Qt libraries require, are present in the tool chain. In particular, if the zlib and jpeg libraries are not available, they must be included by running the configure script with the -L and -I options. Пример:
cd path/to/Qtopia/Core ./configure <other options> -L /path/to/libjpeg/libraries -I /path/to/libjpeg/headers
The JPEG source can be downloaded from http://www.ijg.org/. The Qtopia Core distribution includes a version of the zlib source that can be compiled into the Qtopia core library. If integrators wish to use a later version of the zlib library, it can be downloaded from the http://www.gzip.org/zlib/ website.
Then build the executable:
cd path/to/myApplication qmake -project qmake make
Вот и всё. Your target specific executable is ready for deployment.
See also:
Qtopia Core Architecture and Deploying Qtopia Core Applications. |
Copyright © 2007 Trolltech | Trademarks | Qt 4.3.2
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