Custom Drawn Interface/Android/ru

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Revision as of 19:50, 9 February 2012 by Kverde (talk | contribs) (Configuring the Free Pascal Compiler for Android)

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Вернуться к Custom Drawn Interface


LCL-CustomDrawn-Android utilizes a minimal Java application which communicates with our Pascal library and sends all events to it and also obeys commands from it. The communication is done via JNI as supported by Google. The controls are not native, instead they are all drawing using TRawImage+TLazIntfImage+TLazCanvas and events and the painting are clipped using LazRegions. The drawing itself is done in Pascal using jnigraphics to draw on a Bitmap Java object which is then drawn by the minimal Java activity on a SurfaceView.

Our previous and short-lived attempt to write an LCL Interface for Android (LCL-Android) utilized a non-standard method of using native executables which communicated with a Java machine via Pipes. This method was abandoned because it was considered unsupported by Google. It is considered obsolete and people should use instead LCL-CustomDrawn-Android. This older interface was documented in Android Interface.


  1. Build the set of Lazarus Custom Drawn Controls
  2. Initial bindings for the Android APIs
  3. Create an application to automatically generate the bindings
  4. Start the new widgetset
  5. Implement support for JNI
  6. Merge the Lazarus Custom Drawn Controls into the LCL and use them to implement all basic controls
  7. Add text support for Android
  8. Implement basic window client area scrolling
  9. Add mobile emulator for desktop platforms
  10. Improve the mobile scrolling
  11. Add text support in X11
  12. Add DPI awareness and adaptation in the LCL
  13. Add non-native text support via pasfreetype

Использование Android SDK, эмулятора и телефона

Android Interface/Using the Android SDK, Emulator and Phones/ru

Программирование для Андроид

See Android Programming/ru, also includes caracteristics of the various phones relevant for programming.

Настройка Free Pascal Compiler для Android

Используйте готовый образ Virtual Box с FPC и Lazarus

Самый быстрый способ настройки Free Pascal и Lazarus для разработки под Андроид - просто исползовать заранее настроенный образ для виртуальной машини который уже содержит Mageia Linux 1, KDE, Lazarus 0.9.31, Subversion, Free Pascal для обоих Linux: x86-linux и arm-linux (targetting Android), Android SDK, Android NDK, Java, Ant, Gtk2, и все его разрабатываемые пакеты, GNU debugger (GDB) и все остальное необходимое для создания приложений для Андроид в Lazarus.

Загрузить образ вртуальной машины:

The virtual machine image is composed by two files: “Android Devel VM.vbox” and “Android Devel VM.hdd”. Both need to be located in the same folder and also note that the source forge download is a zipped file, so it needs to be unzipped. After unzipping the VM image has 5,2GB. To use this virtual machine one should install Virtual Box and then use it to open the .vbox file. Then one can already use this Linux virtual machine to build Android applications. The process of building an application involves first opening Lazarus and building the application in Lazarus, for example the example project available on ~/Programas/lazarus/example/androidlcl/ and then going into the Linux terminal, navigating to ~/Programas/lazarus/example/androidlcl/android and issuing the command “ant debug” which will generate the APK file in ~/Programas/ lazarus/example/androidlcl/android/bin/LCLExample-debug.apk. There are two users in the virtual machine: “root” and “pascaldev” and both of them use the password “root”.

Note that the virtual machine contains the Lazarus source code from when it was created, but one can also use svn update to get the latest code. Note that this involves some risks, however, as the trunk version might ocasionally contain problems.

Как самому сделать компилятор в Windows?

Шаг 1 -Установить Android SDK и NDK

Загрузите с сайта Google и установите SDK и NDK для Windows.

Проверьте путь к binutils в установленном NDK. Например для NDK r7 установленном в C:\Programas\android-ndk-r7\ путь будет такой: C:\Programas\android-ndk-r7\toolchains\arm-linux-androideabi-4.4.3\prebuilt\windows\bin

Также проверьте путь к библиотекам NDK. Например, для NDK r7 установленном в C:\Programas\android-ndk-r7\ путь будут такой: C:\Programas\android-ndk-r7\platforms\android-8\arch-arm\usr

Шаг 2 - Скачайте FPC 2.5.1 от 19 января. Создайте каталог для хранения исзодного кода FPC и з Create a folder to store the FPC trunk source code and создайте рабочую копию ревизии 16790

Шаг 3 - Установите FPC 2.4.4

Самый простой способ получить хороший FPC 2.4.4 это установить Lazarus Для примера, предположим что вы установили эту версию в C:\Programas\lazarusfpc244

Шаг 4 - Create the build script and built it

Create the output directory, for example: C:\Programas\fpcandroid\output

Next create a file called build.bat in the fpc root folder, in our example C:\Programas\fpcandroid and copy to it:

SET PATH=C:\Programas\lazarusfpc244\fpc\2.4.4\bin\i386-win32\
make crossinstall CPU_TARGET=arm OS_TARGET=linux CROSSBINDIR=C:\Programas\android-ndk-r7\toolchains\arm-linux-androideabi-4.4.3\prebuilt\windows\bin OPT=-dFPC_ARMEL BINUTILSPREFIX=arm-linux-androideabi- INSTALL_PREFIX=C:\Programas\fpcandroid\output

Next run this batch script and you should have FPC installed into C:\Programas\fpcandroid\output

Step 5 - Copy some cross-binutils into the bin dir

You now should have a FPC binary in C:\Programas\fpcandroid\output\bin\i386-win32

Now get these 3 files:

C:\Programas\android-ndk-r7\toolchains\arm-linux-androideabi-4.4.3\prebuilt\windows\bin\arm-linux-androideabi-as.exe C:\Programas\android-ndk-r7\toolchains\arm-linux-androideabi-4.4.3\prebuilt\windows\bin\arm-linux-androideabi-ld.exe C:\Programas\android-ndk-r7\toolchains\arm-linux-androideabi-4.4.3\prebuilt\windows\bin\arm-linux-androideabi-strip.exe

And copy and then rename to have:

C:\Programas\fpcandroid\output\bin\i386-win32\arm-linux-as.exe C:\Programas\fpcandroid\output\bin\i386-win32\arm-linux-ld.exe C:\Programas\fpcandroid\output\bin\i386-win32\arm-linux-strip.exe

Step 6 - Merge this into a Lazarus FPC setup

Let's say you have the following Lazarus C:\Programas\lazarus31 with the following fpc installed inside it: C:\Programas\lazarus31\fpc\2.5.1\bin\i386-win32 and C:\Programas\lazarus31\fpc\2.5.1\units\

Now copy C:\Programas\fpcandroid\output\units\arm-linux to C:\Programas\lazarus31\fpc\2.5.1\units\

Now copy all .exe files from C:\Programas\fpcandroid\output\bin\i386-win32\ into C:\Programas\lazarus31\fpc\2.5.1\bin\i386-win32

Now you can already build the example project androidlcltest.lpi using the Windows-Release build mode

Building the compiler yourself in Linux

See Setup_Cross_Compile_For_ARM and make sure to use the option OPT="-dFPC_ARMEL" for building the compiler.

Using the pre-compiled compiler in Linux

A pre-compiled compiler is provided for convenience for users. The following steps were tested in Mandriva Linux 2010.0 and 2010.1:

Required Environment

  • The latest stable FPC installed in the system via the RPM / DEB / TAR package

Step 1 - Install the cross-binutils

For Mandriva Linux the RPM package containing arm-linux-as, arm-linux-ld, etc, which are the cross-binutils can be found here:

Just download the RPM package and install it using:

rpm -ivh cross-arm-binutils- 

In Mandriva Linux 2010.0 the dependencies won't match, as the package is for 2010.1, but one can simply ignore this problem and it works fine using --nodeps:

rpm -ivh --nodeps cross-arm-binutils- 

For other distributions use the corresponding package, or else read the instructions for building the cross-binutils yourself at Setup_Cross_Compile_For_ARM

Step 2 - Configure the cross-binutils

The assembler needs a parameter to tell it which ARM ABI to use. A choice which works good is EABI-5, which is compatible with all Android devices available as of Jan 2011. To set this, we will rename the original assembler and substitute it with a shell script which passes the desired parameter. These commands will do it:

mv /usr/bin/arm-linux-as /usr/bin/arm-linux-as_org
gedit /usr/bin/arm-linux-as

Now paste into the editor this code:

/usr/bin/arm-linux-as_org -meabi=5 $@

And don't forget to then make it executable:

chmod 755 /usr/bin/arm-linux-as

Step 3 - Install the Free Pascal Cross-Compiler

At this point the pre-compiled FPC can be download from here:

Then use these commands to install the pre-compiled Free Pascal cross-compiler into /usr:

[felipe@localhost Programas]$ ls -l
total 20664
-rw-rw-r--  1 felipe felipe 17098552 2010-10-25 08:17 fpc-2.5.1.arm-linux.tar.gz
[felipe@localhost Programas]$ su
[root@localhost Programas]# cp fpc-2.5.1.arm-linux.tar.gz /usr/
[root@localhost Programas]# cd /usr/
[root@localhost usr]# tar -xvf fpc-2.5.1.arm-linux.tar.gz 
[root@localhost usr]# ln -s /usr/lib/fpc/2.5.1/ppcrossarm /usr/bin/ppcrossarm

Step 4 - Verify if your Cross-Compiler works

If you made no errors in the previous steps, it should work, so try to call it like this:

[felipe@localhost Programas]$ /usr/bin/ppcrossarm

If this command works and fpc shows its options, then you configured the cross-compiler correctly, if not, then try to find out if your symbolic link points to a correct location with this command:

[felipe@localhost Programas]$ ls -ls /usr/bin/ppc*

Now we are ready to compile Android applications using the Lazarus IDE! Configuring the fpc.cfg file isn't necessary, the old compiler will automatically find the new compiler and it's object files.

Compiling the example LCL Android Application

Step 1 - Download the source code

The source code of the example is located inside the Lazarus sources in lazarus/examples/androidlcl/androidlcltest.lpi

Step 2 - Build the project using the Lazarus IDE

Configuring Lazarus itself to use the new compiler should not normally be necessary because fpc should be able to find the symlink created, but if you have trouble in this part you can try to hard code the compiler path to use the new crosscompiler. To hardcode the compiler path in cause of trouble go to the menu "Tools->Options" and change the "Compiler Path" to "/usr/bin/ppcrossarm"

But it is necessary to configure the LPI file to build the example. Open the Project Options dialog of the androidlcltest.lpi project and go to the section Paths and change the libraries path to reflect the correct paths of where your Android NDK was installed and where your,, etc, libraries are located for your target Android API level. For LCL-CustomDrawn-Android API level 8 is the best choice, because it supports Android 2.2+ like the LCL. The image bellow shows where to configure this:

Configure androidlcl libraries.jpg

Step 3 - Build the APK

Before going to the command line to build the APK open the file lazarus/examples/androidlcl/android/ and change it to reflect your Android SDK path. The file says you should not modify it, but ignore that and modify it anyway. Here is how the file looks like:

# This file is automatically generated by Android Tools.
# Do not modify this file -- YOUR CHANGES WILL BE ERASED!
# This file must *NOT* be checked in Version Control Systems,
# as it contains information specific to your local configuration.

# location of the SDK. This is only used by Ant
# For customization when using a Version Control System, please read the
# header note.

After configuring that one, go to the command line and issue these commands:

 cd lazarus/examples/androidlcl/android
 ant debug

The APK will be located in lazarus/examples/androidlcl/android/bin

Step 4 - Install the APK in your phone and run it

You can install via ADB or by copying the file to the sdcard. You should see this:

Custom drawn android test1.png

How to create an LCL Android Application

To create a new LCL-CustomDrawn-Android application simply copy all of the file structure and build and java files from the example project called "androidlcl". This example can be obtained from the Lazarus source tree in lazarus/examples/androidlcl

Then you will need to modify the build files to change them to your new project name and your new Java package name.

Step 1 - Creating the LPI

You need a separate LPI at the moment for the Android version of the application but all the rest of the code can be shared. Create it using the template for a "Library" and then adapt the code from the example located in the lazarus source code in lazarus/examples/androidlcl

You need to adapt the exported JNI method names to your Android Package Name.

Step 2 - Building the library

First of all, build the Pascal executable without debug information. This debug information is not so useful in Android and makes the executable much bigger. Open the menu Project->Project Options and set the build mode, widgetset, architecture and operating system targets, as shown in these screenshots:

Android project options 1.png

Android project options 2.png

Android project options 3.png

Step 3 - Create the Android project structure

Besides the LCL project building, such as configuring a proper LPI and having a library main project file, one also needs to add all of the android project structure. Simply copy from the example project in lazarus/examples/androidlcl and adapt it to the new project. Things to change are the path to the SDK, the package name. The package name needs to be updated in the build files, in the directory structure android/src/packagename, in the activity java source code and also in the main library pascal source in the exports section.

Building an LCL Android application with debug info

It is useful to add another Android build mode which has debug info. Use all of the same options as shown above, except for the debug information:

Android project options 4.png

Oh no! My LCL Android application doesn't work

There are various reasons why the app may not work. The most important thing to do when an app doesn't work is to open the logcat and see what the log says. This can be done by running this command line command:

./adb logcat

And then test one of the hipotesis in the next subsections.

The Pascal executable was compiled for a wrong architecture, operating system and/or widgetset

This is the leading cause of executables not running. Always verify that you compiled the program to the "android" widgetset, "linux" operating system and "arm" architecture. This is done by going into the menu Project->Project Options. Then set these in the dialog all options as explained in this section:


To check if you library is arm-linux or not, execute the following commands:

cd libs/armeabi
ls -l

If it mentions anything like 80386 or gtk, then your program was compiled for linux-x86 and gtk2, not for Android like it should.

My Pascal application crashed. How to get a stacktrace?

If a Pascal application crashes you should use the command "adb logcat" to obtain the stack

The indispensable build options

  • -Xd This build option is indispensable when cross-compiling from x86-linux to Android or else FPC will try to link the application against for example /usr/lib/ instead of the in the NDK, even if you specify a -Fl library path
  • -CpARMV6 This build option is indispensable because code generated for older ARM versions is unsupported by Android and might crash in some devices. See
  • -dAndroid in the package LCLBase.lpk
  • -Parm -Tlinux for the process and target operating system
  • -Fl should contain the path to the NDK directory with the target link shared object, such as,,, etc

Free Pascal Bugs on Android Support

The following summarizes the state of Android Support in Free Pascal:

We are in contact with FPC developers to fix the situation as can be seen in:

Development Notes

The misterious JNI Crash

See the thread:

The problem was that vm^^.GetEnv would crash in HTC Wildfire, Alcatel and in the emulator with SIGILL but not in Xperia Mini, HTC Desire HD, Motorola Atrix and other smartphones.

The answer was that one needs to specify -CpARMV6 when building because older instructions might fail in some devices

NDK Libraries available in Android 2.2 (API level 8)

LCL-CustomDrawn targets Android 2.2+ and in this API level the following libraries are supported by the NDK:

  2. (linker)
  3. OpenGL ES 1
  4. OpenGL ES 2

LCL-CustomDrawn-Android uses and at the moment.

Native text drawing

Native text drawing is a bit convoluted in Android and the documentation is quite bad too. Some gotchas already found:

  • It draws text starting on a Y coordinate which represents the baseline, which is the bottom of strings like "abc", but not the bottom of strings like "qg". See
  • There is no documentation about what the size in Paint.setTextSize represents. Some people say it is pixels, but to me it looks something else because it seams to differ across devices.

But there are also good things about it:

  • It can draw on a transparent bitmap and use alpha transparency to implement anti-aliasing and subpixel rendering. The text gets quite beaultiful.
  • It can draw on the ARGB 32-bits non-premultiplied format which is a pretty good one

Flood of garbage collector messages when the caret is visible

Something like this:

D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 188 objects / 6664 bytes in 94ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 170 objects / 6160 bytes in 78ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5904 bytes in 82ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5856 bytes in 78ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5872 bytes in 80ms
D/dalvikvm( 2825): GC_EXPLICIT freed 371 objects / 18480 bytes in 91ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5896 bytes in 78ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5896 bytes in 78ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5896 bytes in 81ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5920 bytes in 78ms
D/dalvikvm( 6364): GC_EXTERNAL_ALLOC freed 162 objects / 5920 bytes in 83ms

In my investigation this happens probably because the TCDEdit will request a full control invalidate on each timer tick, which currently will main a full form invalidate, so the GC needs to collect the bitmaps and other paint objects when painting that often.

Why the caret of a TEdit keeps blinking after clicking on the form

When clicking on the form the LCL focus will refuse to move from the Edit to the Form because this behavior seams to be hard coded in the LCL, although maybe we might change this for Android. So even while we set focus into the form, the LCL refuses to do that and keeps its focus in the Edit, thus we have a focus missmatch. This might eventually be fixed in the future.