How to call c function from Java. Seems c is compiler based.
I would like to call C function in Windows from Java, and GCC function fron Java too.
Any reference?
Java native interface (JNI) is a framework provided by java that enables java programs to call native code and vice-versa. Using JNI a java program has the capability to call the native C code.
C/C++ and Java are popular programming languages. The Java Native Interface (JNI) is a standard to integrate in a portable way C++ and Java code. JNI works both way i.e. C++ implementation can be called from JAVA and vice versa.
C is a compiled language that is it converts the code into machine language so that it could be understood by the machine or system. Java is an Interpreted language that is in Java, the code is first transformed into bytecode and that bytecode is then executed by the JVM (Java Virtual Machine).
A mixed C++/Java application cannot run as an applet. You give up pointer safety. Your C++ code is free to miscast objects, access a deleted object, or corrupt memory in any of the other ways that are so easy in C++. Your code may not be portable.
Have a look at Java Native Interface: Getting Started.
2.1 Overview
[...] write a simple Java application that calls a C function to print "Hello World!". The process consists of the following steps:
Create a class (HelloWorld.java) that declares the native method. Use javac to compile the HelloWorld source file, resulting in the class file HelloWorld.class. The javac compiler is supplied with JDK or Java 2 SDK releases. Use
javah -jni
to generate a C header file (HelloWorld.h
) containing the function prototype for the native method implementation. The javah tool is provided with JDK or Java 2 SDK releases. Write the C implementation (HelloWorld.c
) of the native method. Compile the C implementation into a native library, creatingHello-World.dll
orlibHello-World.so
. Use the C compiler and linker available on the host environment. Run the HelloWorld program using the java runtime interpreter. Both the class file (HelloWorld.class
) and the native library (HelloWorld.dll
orlibHelloWorld.so
) are loaded at runtime. The remainder of this chapter explains these steps in detail.2.2 Declare the Native Method
You begin by writing the following program in the Java programming language. The program defines a class named HelloWorld that contains a native method, print.
class HelloWorld { private native void print(); public static void main(String[] args) { new HelloWorld().print(); } static { System.loadLibrary("HelloWorld"); } }
The HelloWorld class definition begins with the declaration of the print native method. This is followed by a main method that instantiates the Hello-World class and invokes the print native method for this instance. The last part of the class definition is a static initializer that loads the native library containing the implementation of the print native method.
There are two differences between the declaration of a native method such as print and the declaration of regular methods in the Java programming language. A native method declaration must contain the native modifier. The native modifier indicates that this method is implemented in another language. Also, the native method declaration is terminated with a semicolon, the statement terminator symbol, because there is no implementation for native methods in the class itself. We will implement the print method in a separate C file.
Before the native method print can be called, the native library that implements print must be loaded. In this case, we load the native library in the static initializer of the
HelloWorld
class. The Java virtual machine automatically runs the static initializer before invoking any methods in theHelloWorld
class, thus ensuring that the native library is loaded before the print native method is called.We define a main method to be able to run the
HelloWorld
class.Hello-World.main
calls the native method print in the same manner as it would call a regular method.
System.loadLibrary
takes a library name, locates a native library that corresponds to that name, and loads the native library into the application. We will discuss the exact loading process later in the book. For now simply remember that in order forSystem.loadLibrary("HelloWorld")
to succeed, we need to create a native library calledHelloWorld.dll
on Win32, orlibHelloWorld.so
on Solaris.2.3 Compile the HelloWorld Class
After you have defined the HelloWorld class, save the source code in a file called HelloWorld.java. Then compile the source file using the javac compiler that comes with the JDK or Java 2 SDK release:
javac HelloWorld.java
This command will generate a
HelloWorld.class
file in the current directory.2.4 Create the Native Method Header File
Next we will use the
javah
tool to generate a JNI-style header file that is useful when implementing the native method in C. You can runjavah
on theHello-World
class as follows:javah -jni HelloWorld
The name of the header file is the class name with a "
.h
" appended to the end of it. The command shown above generates a file namedHelloWorld.h
. We will not list the generated header file in its entirety here. The most important part of the header file is the function prototype forJava_HelloWorld_print
, which is the C function that implements the HelloWorld.print method:JNIEXPORT void JNICALL Java_HelloWorld_print (JNIEnv *, jobject);
Ignore the
JNIEXPORT
andJNICALL
macros for now. You may have noticed that the C implementation of the native method accepts two arguments even though the corresponding declaration of the native method accepts no arguments. The first argument for every native method implementation is aJNIEnv
interface pointer. The second argument is a reference to theHelloWorld
object itself (sort of like the "this
" pointer in C++). We will discuss how to use theJNIEnv
interface pointer and thejobject
arguments later in this book, but this simple example ignores both arguments.2.5 Write the Native Method Implementation
The JNI-style header file generated by
javah
helps you to write C or C++ implementations for the native method. The function that you write must follow the -prototype specified in the generated header file. You can implement theHello-World.print
method in a C fileHelloWorld.c
as follows:#include <jni.h> #include <stdio.h> #include "HelloWorld.h" JNIEXPORT void JNICALL Java_HelloWorld_print(JNIEnv *env, jobject obj) { printf("Hello World!\n"); return; }
The implementation of this native method is straightforward. It uses the printf function to display the string "Hello World!" and then returns. As mentioned before, both arguments, the
JNIEnv
pointer and the reference to the object, are ignored.The C program includes three header files:
jni.h
-- This header file provides information the native code needs to call JNI functions. When writing native methods, you must always include this file in your C or C++ source files.stdio.h
-- The code snippet above also includesstdio.h
because it uses theprintf
function.HelloWorld.h
-- The header file that you generated usingjavah
. It includes the C/C++ prototype for theJava_HelloWorld_print
function. 2.6 Compile the C Source and Create a Native LibraryRemember that when you created the
HelloWorld
class in theHelloWorld.java
file, you included a line of code that loaded a native library into the program:System.loadLibrary("HelloWorld");
Now that all the necessary C code is written, you need to compile
Hello-World.c
and build this native library.Different operating systems support different ways to build native libraries. On Solaris, the following command builds a shared library called libHello-World.so:
cc -G -I/java/include -I/java/include/solaris HelloWorld.c -o libHelloWorld.so
The -G option instructs the C compiler to generate a shared library instead of a regular Solaris executable file. Because of the limitation of page width in this book, we break the command line into two lines. You need to type the command in a single line, or place the command in a script file. On
Win32
, the following command builds a dynamic link library (DLL)HelloWorld.dll
using the Microsoft Visual C++ compiler:cl -Ic:\java\include -Ic:\java\include\win32 -MD -LD HelloWorld.c -FeHelloWorld.dll
The
-MD
option ensures thatHelloWorld.dll
is linked with theWin32
multithreaded C library. The-LD
option instructs the C compiler to generate a DLL instead of a regular Win32 executable. Of course, on both Solaris and Win32 you need to put in the include paths that reflect the setup on your own machine.2.7 Run the Program
At this point, you have the two components ready to run the program. The class file (
HelloWorld.class
) calls a native method, and the native library (Hello-World.dll
) implements the native method.Because the
HelloWorld
class contains its own main method, you can run the program on Solaris or Win32 as follows:java HelloWorld
You should see the following output:
Hello World!
It is important to set your native library path correctly for your program to run. The native library path is a list of directories that the Java virtual machine searches when loading native libraries. If you do not have a native library path set up correctly, then you see an error similar to the following:
java.lang.UnsatisfiedLinkError: no HelloWorld in library path at java.lang.Runtime.loadLibrary(Runtime.java) at java.lang.System.loadLibrary(System.java) at HelloWorld.main(HelloWorld.java)
Make sure that the native library resides in one of the directories in the native library path. If you are running on a Solaris system, the
LD_LIBRARY_PATH
environment variable is used to define the native library path. Make sure that it includes the name of the directory that contains thelibHelloWorld.so
file. If thelibHelloWorld.so
file is in the current directory, you can issue the following two commands in the standard shell (sh) or KornShell (ksh) to set up theLD_LIBRARY_PATH
environment variable properly:LD_LIBRARY_PATH=. export LD_LIBRARY_PATH
The equivalent command in the C shell (csh or tcsh) is as follows:
setenv LD_LIBRARY_PATH .
If you are running on a Windows 95 or Windows NT machine, make sure that
HelloWorld.dll
is in the current directory, or in a directory that is listed in the PATH environment variable.In Java 2 SDK 1.2 release, you can also specify the native library path on the java command line as a system property as follows:
java -Djava.library.path=. HelloWorld
The "
-D
" command-line option sets a Java platform system property. Setting thejava.library.path
property to ".
" instructs the Java virtual machine to search for native libraries in the current directory.
In simple terms, just make sure you load the relevant library which contains the function definition, load the library which follows the JNI specification and wraps the target function from the first library, expose native methods from your Java class and you should be good to go.
I'd recommend against raw JNI since it contains a lot of boilerplate code and you would end up cursing yourself if you start wrapping a big C library. By all means do feel free to dabble in JNI when starting out but use something like JNA when it comes to real work.
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