SWIG and Android

http://www.swig.org/Doc2.0/Android.html (原文好像被墙,特转)

 

18 SWIG and Android

  • Overview
  • Android examples
    • Examples introduction
    • Simple C example
    • C++ class example
    • Other examples
  • C++ STL

This chapter describes SWIG's support of Android.

18.1 Overview

The Android chapter is fairly short as support for Android is the same as for Java, where the Java Native Interface (JNI) is used to call from Android Java into C or C++ compiled code. Everything in the Java chapter applies to generating code for access from Android Java code. This chapter contains a few Android specific notes and examples.

18.2 Android examples

18.2.1 Examples introduction

The examples require the Android SDK and Android NDK which can be installed as per instructions in the links. The Eclipse version is not required for these examples as just the command line tools are used (shown for Linux as the host, but Windows will be very similar, if not identical in most places). Add the SDK tools and NDK tools to your path and create a directory somewhere for your Android projects (adjust PATH as necessary to where you installed the tools):

 $ export  $ mkdir AndroidApps  $ cd AnrdoidApps

The examples use a target id of 1. This might need changing depending on your setup. After installation of the Android SDK, the available target ids can be viewed by running the command below. Please adjust the id to suit your target device.

 $ android list targets

The following examples are shipped with SWIG under the Examples/android directory and include a Makefile to build and install each example.

18.2.2 Simple C example

This simple C example shows how to call a C function as well as read and modify a global variable. First we'll create and build a pure Java Android app. Afterwards the JNI code will be generated by SWIG and built into the app. First create and build an app called SwigSimple in a subdirectory called simple using the commands below. Adjust the --target id as mentioned earlier in the Examples introduction . Managing Projects from the Command Line on the Android developer's site is a useful reference for these steps.

 $ android create project --target 1 --name SwigSimple --path ./simple --activity SwigSimple --package org.swig.simple  $ cd simple  $ ant debug

Modify src/org/swig/simple/SwigSimple.java from the default to:

 package org.swig.simple;  import android.app.Activity;  import android.os.Bundle;  import android.view.View;  import android.widget.Button;  import android.widget.TextView;  import android.widget.ScrollView;  import android.text.method.ScrollingMovementMethod;  public class SwigSimple extends Activity  {  TextView outputText = null;  ScrollView scroller = null;  /** Called when the activity is first created.  */  @Override  public void onCreate(Bundle savedInstanceState)  {  super.onCreate(savedInstanceState);  setContentView(R.layout.main);  outputText = (TextView)findViewById(R.id.OutputText);  outputText.setText("Press 'Run' to start...\n");  outputText.setMovementMethod(new ScrollingMovementMethod());  scroller = (ScrollView)findViewById(R.id.Scroller);  }  public void onRunButtonClick(View view)  {  outputText.append("Started...\n");  nativeCall();  outputText.append("Finished!\n");  // Ensure scroll to end of text  scroller.post(new Runnable() {  public void run() {  scroller.fullScroll(ScrollView.FOCUS_DOWN);  }  });  }  /** Calls into C/C++ code */  public void nativeCall()  {  // TODO  }  }

The above simply adds a Run button and scrollable text view as the GUI aspects of the program. The associated resources need to be created, modify res/layout/main.xml as follows:

 <?xml version="1.0" encoding="utf-8"?>  <LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"  android:orientation="vertical"  android:layout_width="fill_parent"  android:layout_height="fill_parent"  >  <Button  android:id="@+id/RunButton"  android:layout_width="wrap_content"  android:layout_height="wrap_content"  android:text="Run..."  android:onClick="onRunButtonClick"  />  <ScrollView  android:id="@+id/Scroller"  android:layout_width="fill_parent"  android:layout_height="fill_parent"  >  <TextView  android:id="@+id/OutputText"  android:layout_width="wrap_content"  android:layout_height="wrap_content"  />  </ScrollView>  </LinearLayout>

Rebuild the project with your changes:

 $ ant debug

Although there are no native function calls in the code, yet, you may want to check that this simple pure Java app runs before adding in the native calls. First, set up your Android device for hardware debugging, see Using hardware devices on the Android developer's site. When complete your device should be listed in those attached, something like:

 $ adb devices  List of devices attached  A32-6DBE0001-9FF80000-015D62C3-02018028 device

This means you are now ready to install the application...

 $ adb install bin/SwigSimple-debug.apk  95 KB/s (4834 bytes in 0.049s)  pkg: /data/local/tmp/SwigSimple-debug.apk  Success

The newly installed 'SwigSimple' app will be amongst all your other applications on the home screen. Run the app and it will show a Run button text box below it. Press the Run button to see the simple text output.

The application can be uninstalled like any other application and in fact must be uninstalled before installing an updated version. Uninstalling is quite easy too from your host computer:

 $ adb uninstall org.swig.simple  Success

Now that you have a pure Java Android app working, let's add some JNI code generated from SWIG.

First create a jni subdirectory and then create some C source code in jni/example.c :

 /* File : example.c */  /* A global variable */  double Foo = 3.0;  /* Compute the greatest common divisor of positive integers */  int gcd(int x, int y) {  int g;  g = y;  while (x > 0) {  g = x;  x = y % x;  y = g;  }  return g;  }

Create a SWIG interface file for this C code, jni/example.i :

 /* File : example.i */  %module example  %inline %{  extern int gcd(int x, int y);  extern double Foo;  %}

Invoke SWIG as follows:

 $ swig -java -package org.swig.simple -outdir src/org/swig/simple -o jni/example_wrap.c jni/example.i

SWIG generates the following files:

  • src/org/swig/simple/exampleJNI.java
  • src/org/swig/simple/example.java
  • jni/example_wrap.c

Next we need to create a standard Android NDK build system file jni/Android.mk :

 # File: Android.mk  LOCAL_PATH := $(call my-dir)  include $(CLEAR_VARS)  LOCAL_MODULE := example  LOCAL_SRC_FILES := example_wrap.c example.c  include $(BUILD_SHARED_LIBRARY)

See the Android NDK documentation for more on the NDK build system and getting started with the NDK. A simple invocation of ndk-build will compile the .c files and generate a shared object/system library. Output will be similar to:

 $ ndk-build  Compile thumb : example <= example_wrap.c  Compile thumb : example <= example.c  SharedLibrary : libexample.so  Install : libexample.so => libs/armeabi/libexample.so

Now that the C JNI layer has been built, we can write Java code to call into the this layer. Modify the nativeCall method in src/org/swig/simple/SwigSimple.java to call the JNI code as follows and add the static constructor to load the system library containing the compiled JNI C code:

 /** Calls into C/C++ code */  public void nativeCall()  {  // Call our gcd() function  int x = 42;  int y = 105;  int g = example.gcd(x,y);  outputText.append("The greatest common divisor of " + x + " and " + y + " is " + g + "\n");  // Manipulate the Foo global variable  // Output its current value  double foo = example.getFoo();  outputText.append("Foo = " + foo + "\n");  // Change its value  example.setFoo(3.1415926);  // See if the change took effect  outputText.append("Foo = " + example.getFoo() + "\n");  // Restore value  example.setFoo(foo);  }  /** static constructor */  static {  System.loadLibrary("example");  }

Compile the Java code as usual, uninstall the old version of the app if still installed and re-install the new app:

 $ ant debug  $ adb uninstall org.swig.simple  $ adb install bin/SwigSimple-debug.apk

Run the app again and this time you will see the output pictured below, showing the result of calls into the C code:

Android screenshot of SwigSimple example

18.2.3 C++ class example

The steps for calling C++ code are almost identical to those in the previous C code example. All the steps required to compile and use a simple hierarchy of classes for shapes are shown in this example.

First create an Android project called SwigClass in a subdirectory called class . The steps below create and build a the JNI C++ app. Adjust the --target id as mentioned earlier in the Examples introduction .

 $ android create project --target 1 --name SwigClass --path ./class --activity SwigClass --package org.swig.classexample  $ cd class

Now create a jni subdirectory and then create a C++ header file jni/example.h which defines our hierarchy of shape classes:

 /* File : example.h */  class Shape {  public:  Shape() {  nshapes++;  }  virtual ~Shape() {  nshapes--;  };  double x, y;  void move(double dx, double dy);  virtual double area(void) = 0;  virtual double perimeter(void) = 0;  static int nshapes;  };  class Circle : public Shape {  private:  double radius;  public:  Circle(double r) : radius(r) { };  virtual double area(void);  virtual double perimeter(void);  };  class Square : public Shape {  private:  double width;  public:  Square(double w) : width(w) { };  virtual double area(void);  virtual double perimeter(void);  };

and create the implementation in the jni/example.cpp file:

 /* File : example.cpp */  #include "example.h"  #define M_PI 3.14159265358979323846  /* Move the shape to a new location */  void Shape::move(double dx, double dy) {  x += dx;  y += dy;  }  int Shape::nshapes = 0;  double Circle::area(void) {  return M_PI*radius*radius;  }  double Circle::perimeter(void) {  return 2*M_PI*radius;  }  double Square::area(void) {  return width*width;  }  double Square::perimeter(void) {  return 4*width;  }

Create a SWIG interface file for this C++ code in jni/example.i :

 /* File : example.i */  %module example  %{  #include "example.h"  %}  /* Let's just grab the original header file here */  %include "example.h"

Invoke SWIG as follows, note that the -c++ option is required for C++ code:

 $ swig -c++ -java -package org.swig.classexample -outdir src/org/swig/classexample -o jni/example_wrap.cpp jni/example.i

SWIG generates the following files:

  • src/org/swig/classexample/Square.java
  • src/org/swig/classexample/exampleJNI.java
  • src/org/swig/classexample/example.java
  • src/org/swig/classexample/Circle.java
  • src/org/swig/classexample/Shape.java
  • jni/example_wrap.cpp

Next we need to create an Android NDK build system file for compiling the C++ code jni/Android.mk . The -frtti compiler flag isn't strictly needed for this example, but is needed for any code that uses C++ RTTI:

 # File: Android.mk  LOCAL_PATH := $(call my-dir)  include $(CLEAR_VARS)  LOCAL_MODULE := example  LOCAL_SRC_FILES := example_wrap.cpp example.cpp  LOCAL_CFLAGS := -frtti  include $(BUILD_SHARED_LIBRARY)

A simple invocation of ndk-build will compile the .cpp files and generate a shared object/system library. Output will be similar to:

 $ ndk-build  Compile++ thumb : example <= example_wrap.cpp  Compile++ thumb : example <= example.cpp  StaticLibrary : libstdc++.a  SharedLibrary : libexample.so  Install : libexample.so => libs/armeabi/libexample.so

Now that the C JNI layer has been built, we can write Java code to call into this layer. Modify src/org/swig/classexample/SwigClass.java from the default to:

 package org.swig.classexample;  import android.app.Activity;  import android.os.Bundle;  import android.view.View;  import android.widget.Button;  import android.widget.TextView;  import android.widget.ScrollView;  import android.text.method.ScrollingMovementMethod;  public class SwigClass extends Activity  {  TextView outputText = null;  ScrollView scroller = null;  /** Called when the activity is first created.  */  @Override  public void onCreate(Bundle savedInstanceState)  {  super.onCreate(savedInstanceState);  setContentView(R.layout.main);  outputText = (TextView)findViewById(R.id.OutputText);  outputText.setText("Press 'Run' to start...\n");  outputText.setMovementMethod(new ScrollingMovementMethod());  scroller = (ScrollView)findViewById(R.id.Scroller);  }  public void onRunButtonClick(View view)  {  outputText.append("Started...\n");  nativeCall();  outputText.append("Finished!\n");  // Ensure scroll to end of text  scroller.post(new Runnable() {  public void run() {  scroller.fullScroll(ScrollView.FOCUS_DOWN);  }  });  }  /** Calls into C/C++ code */  public void nativeCall()  {  // ----- Object creation -----  outputText.append( "Creating some objects:\n" );  Circle c = new Circle(10);  outputText.append( " Created circle " + c + "\n");  Square s = new Square(10);  outputText.append( " Created square " + s + "\n");  // ----- Access a static member -----  outputText.append( "\nA total of " + Shape.getNshapes() + " shapes were created\n" );  // ----- Member data access -----  // Notice how we can do this using functions specific to  // the 'Circle' class.  c.setX(20);  c.setY(30);  // Now use the same functions in the base class  Shape shape = s;  shape.setX(-10);  shape.setY(5);  outputText.append( "\nHere is their current position:\n" );  outputText.append( " Circle = (" + c.getX() + " " + c.getY() + ")\n" );  outputText.append( " Square = (" + s.getX() + " " + s.getY() + ")\n" );  // ----- Call some methods -----  outputText.append( "\nHere are some properties of the shapes:\n" );  Shape[] shapes = {c,s};  for (int i=0; i<shapes.length; i++)  {  outputText.append( " " + shapes[i].toString() + "\n" );  outputText.append( " area = " + shapes[i].area() + "\n" );  outputText.append( " perimeter = " + shapes[i].perimeter() + "\n" );  }  // Notice how the area() and perimeter() functions really  // invoke the appropriate virtual method on each object.  // ----- Delete everything -----  outputText.append( "\nGuess I'll clean up now\n" );  // Note: this invokes the virtual destructor  // You could leave this to the garbage collector  c.delete();  s.delete();  outputText.append( Shape.getNshapes() + " shapes remain\n" );  outputText.append( "Goodbye\n" );  }  /** static constructor */  static {  System.loadLibrary("example");  }  }

Note the static constructor and the interesting JNI code is in the nativeCall method. The remaining code deals with the GUI aspects which are identical to the previous C simple example. Modify res/layout/main.xml to contain the xml for the 'Run' button and scrollable text view:

 <?xml version="1.0" encoding="utf-8"?>  <LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"  android:orientation="vertical"  android:layout_width="fill_parent"  android:layout_height="fill_parent"  >  <Button  android:id="@+id/RunButton"  android:layout_width="wrap_content"  android:layout_height="wrap_content"  android:text="Run..."  android:onClick="onRunButtonClick"  />  <ScrollView  android:id="@+id/Scroller"  android:layout_width="fill_parent"  android:layout_height="fill_parent"  >  <TextView  android:id="@+id/OutputText"  android:layout_width="wrap_content"  android:layout_height="wrap_content"  />  </ScrollView>  </LinearLayout>

Compile the Java code as usual, uninstall the old version of the app if installed and re-install the new app:

 $ ant debug  $ adb uninstall org.swig.classexample  $ adb install bin/SwigClass-debug.apk

Run the app to see the result of calling the C++ code from Java:

Android screenshot of SwigClass example

18.2.4 Other examples

The Examples/android directory contains further examples which can be run and installed in a similar manner to the previous two examples.

Note that the 'extend' example is demonstrates the directors feature. Normally C++ exception handling and the STL is not available by default in the version of g++ shipped with Android, but this example turns these features on as described in the next section.

18.3 C++ STL

Should the C++ Standard Template Library (STL) be required, an Application.mk file needs to be created in the same directory as the Android.mk directory containing information about the STL to use. See the NDK documentation in the $NDKROOT/docs folder especially CPLUSPLUS-SUPPORT.html. Below is an example of the Application.mk file to make the STLport static library available for use:

 # File: Application.mk  APP_STL := gnustl_static

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