Mercurial > MadButterfly
view dox/Android.h @ 842:76fe4afce640
The inkscape:bbox is defined as the global coordinate system. However, the center.x and center.y must be the coordiante system of the parent group of the SVG entity. Therefore, we need to do coordinate transformation from the global coordination system to the local coordination system.
author | wycc |
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date | Sat, 18 Sep 2010 21:23:51 +0800 |
parents | 099d6f26dc05 |
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/*! \page android Integrate MadButterfly with Android * * I think almost all technical guys know Android, the mobile OS * project from Google. Once I know Android, my first idea is it is * cool if Android programmers can be powered by MadButterfly. * MadButterfly is very feasible for a lot of programs running on * devices that Android be targeted for. This document is about how * the MadButterfly is integrated with Android and power Android * applications. * * \section android_jni Android Native Code * * Android applications are actually Java code running on Dalvik VM. * Although, Java bytecode was translated into Dalvik bytecode. JNI * is the bridge of bytecode and native code. Bytecode and native * code can access each other through JNI interface. So, we must * implement a set of JNI native function as the channel for * communication between Android applications and MadButterfly. * Following image is how the MadButterfly integrated with the * Android. * * \image html Android-int.png * * MB JNI is a set of JNI native static methods that expose * MadButterfly functions to Java code. Java application can call * native static methods of MB JNI to access functions provided by * MadButterfly. * * Android applications draw everything on Canvas obects (backed by a * surface). A canvas is actually a wrapper for a SkCanvas of Skia. * Drawing on a Canvas object means drawing on a SkCanvas object. To * draw on the screen, MadButterfly draws on the SkCanvas. * * The idea is to make MadButterfly as a View of Android UI. * SurfaceView is extended as MBView; the sub-type of View for showing * graphics generated by MadButterfly. The SurfaceView own a surface. * The surface is passed to MadButterfly as a SurfaceHolder. MB JNI * can get Canvas objects from the SurfaceHolder, and get associated * SkCanvas in turn. With SkCanvas objects, MadButterfly can draw for * the MBView object. * * \section android_mem Memory Management for Android JNI Interface * * Some memory allocated and returned by MadButterfly should be * managed by the application. These memory blocks should not be * freed until they are no more used by MadButterfly engine. It means * Android applications reponsible for managing memory blocks. To * simplify implmentation of MB JNI, MB JNI always return the address * of an allocated objects as a Java integer. Java code should * take care about these addresses, and call proper functions for * freeing objects specified by addresses at right time. * * A Java side framework should be designed to easy the work of * Android application programmers. The framework should take care of * tracking life-cycle of MadButterfly objects. The namespace of the * framework is 'org.madbutterfly'. * * \section android_jni _jni * * org.madbutterfly._jni class is the placeholder to collect JNI * native methods for all MadButterfly functions. All methods of _jni * are static. A method usually maps to a MadButterfly function. For * example, rdman_coord_new() mapes to the MadButterfly function with * the same name. * * The object returned by a MadButterfly function, for ex. returned * value of rdman_coord_new(), is casted to a int, the address of the * object. So, type of an argument or return value of an object is * declared as a int. For example, * \code * class _jni { * native static int rdman_coord_new(void); * } * \endcode * Java code should keep these integers carefully for maintaining * life-cycle of objects. * * MadButterfly provides only initial function for some objects, * application should allocate memory for these function by them-self. * For these function, a new JNI native method are used instead of * initial function. The new JNI method is responsible for allocating * memory and calling initial function. For example, redraw_man_new() * is defined as a JNI method instead of redraw_man_init(). * \code * native static int redraw_man_new(Canvas cr, Canvas backend); * \endcode * First argument, rdman, of redraw_man_init() is replaced by a int * returned value of redraw_man_new(). cr and backend, mbe_t type by * MadButterfly, are, now, Canvas type by the JNI native method. The * implementation of the JNI native mothod would retrieves the * SkCanvas object, and casts it to mbe_t type. * * \section android_java_mb Java Likes MadButterfly * * Managing life-cycle for MadButterfly objects is not Java likes. * To provie a Java style interface for MadButterfly, a framework to * hide underlying life-cycle management is requried. Life-cycle is * one major responsibility of the framework, it should keep integers * of addresses of objects and free the associated resources with * correct JNI methods and at right time. * * For example, org.madbutterfly.redraw_man is the respective Java * class of redraw_man_t of MadButterfly engine. redraw_man has a * private member variable redraw_man._rdman_addr. It is the address * of the respective redraw_man_t object of MadButterfly. redraw_man * would call _jni.redraw_man_destroy() to release associated * resources and free the memory before it being recycled. So, * redraw_man.finalize() is defined for releasing resources. It would * be called before a redraw_man object being recycled. * * \section android_MBView MBView for Android MBView extends * * SurfaceView is a sub-class of View provided by Android. MBView * inherits SurfaceView to implement a View controlled by * MadButterfly. A MBView object owns a redraw_man, a.k.a * redraw_man_t of MadButterfly. Android application programmers * works on redraw_man to manipulate MadButterfly and changes content * showed by the MBView object. Android applications call * MBView.get_rdman() to retrieve the redraw_man object assocaited * with a MBView object. MadButterfly would draw the content of a * redraw_man object on the surface, inherited from the SurfaceView * class, associated with the MBView object. * */