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Jython is an implementation of the high-level, dynamic, object-oriented language Python written in 100% Pure Java, and seamlessly integrated with the Java platform. It thus allows you to run Python on any Java platform.

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package org.python.expose.generate;

import java.util.HashMap;
import java.util.Map;

import org.objectweb.asm.ClassVisitor;
import org.objectweb.asm.ClassWriter;
import org.objectweb.asm.Label;
import org.objectweb.asm.MethodVisitor;
import org.objectweb.asm.Opcodes;
import org.objectweb.asm.Type;
import org.python.core.BytecodeLoader;

/**
 * Base class that handles the basics of generating a single class with asm. Subclass to supply the
 * actual functionality of the generated class.
 * 
 */
public abstract class Exposer implements Opcodes, PyTypes {

    /** The current method under construction or null. */
    protected MethodVisitor mv;

    /** The current class under construction. */
    protected ClassVisitor cv;

    /** The super class of the type that will be generated. */
    private Type superType;

    /** The type that will be generated. */
    protected Type thisType;
    
    protected Type[] interfacesImplemented;

    /** Maps from a primitive type to its wrapper */
    protected static final Map PRIMITIVES = new HashMap() {
        {
            put(BOOLEAN, Type.getType(Boolean.class));
            put(BYTE, Type.getType(Byte.class));
            put(CHAR, Type.getType(Character.class));
            put(Type.DOUBLE_TYPE, Type.getType(Double.class));
            put(Type.FLOAT_TYPE, Type.getType(Float.class));
            put(INT, Type.getType(Integer.class));
            put(Type.LONG_TYPE, Type.getType(Long.class));
            put(SHORT, Type.getType(Short.class));
            put(VOID, Type.getType(Void.class));
        }
    };

    /**
     * @param superClass -
     *            the super class of the generated class
     * @param generatedName -
     *            the name of the class to generate
     */
    public Exposer(Class superClass, String generatedName, Type...interfacesImplemented) {
        superType = Type.getType(superClass);
        thisType = Type.getType("L" + generatedName.replace('.', '/') + ";");
        this.interfacesImplemented = interfacesImplemented;
    }

    /**
     * Implemented by subclasses to fill in the actual implementation of the class. cv is set to the
     * ClassVisitor to be used when this is called.
     */
    protected abstract void generate();

    /**
     * Generates this Exposer and loads it into the given Loader.
     */
    protected Class load(BytecodeLoader.Loader l) {
        ClassWriter cw = new ClassWriter(ClassWriter.COMPUTE_FRAMES);
        generate(cw);
        return l.loadClassFromBytes(getClassName(), cw.toByteArray());
    }

    protected Type getGeneratedType() {
        return thisType;
    }

    public String getClassName() {
        return thisType.getClassName();
    }

    public String getInternalName() {
        return thisType.getInternalName();
    }

    /**
     * Will call the methods on visitor to generate this class. Only one call to generate may be
     * active at a time on a single instance of Exposer. The ClassVisitor is assumed to have been
     * constructed with COMPUTE_FRAMES.
     */
    public void generate(ClassVisitor visitor) {
        assert cv == null;
        cv = visitor;
        String[] interfaces = new String[interfacesImplemented.length];
        for (int i = 0; i < interfaces.length; i++) {
            interfaces[i] = interfacesImplemented[i].getInternalName();
        }
        cv.visit(V1_5,
                 ACC_PUBLIC,
                 getInternalName(),
                 null,
                 superType.getInternalName(),
                 interfaces);
        generate();
        assert mv == null;
        cv.visitEnd();
        cv = null;
    }

    /** Calls the constructor on the super class with the given args. */
    protected void superConstructor(Type... args) {
        callConstructor(superType, args);
    }

    class Instantiator {

        public Instantiator(Type... types) {
            this.types = types;
        }

        /**
         * Push args onto the stack corresponding to the types passed to the constructor.
         */
        public void pushArgs() {
            if(types.length > 0) {
                throw new IllegalStateException("If the constuctor takes types as indicated by "
                        + "passing their types to Instantiator, pushArgs must be overriden to put "
                        + "those args on the stack before the call");
            }
        };

        public Type[] getTypes() {
            return types;
        }

        private Type[] types;
    }

    /** Instantiates ofType using its no-arg constructor */
    protected void instantiate(Type ofType) {
        instantiate(ofType, new Instantiator());
    }

    /**
     * Instantiates ofType with its constructor that takes the types returned by inst.getTypes().
     * inst should override pushArgs to put arguments of those types on the stack for the call.
     */
    protected void instantiate(Type ofType, Instantiator inst) {
        mv.visitTypeInsn(NEW, ofType.getInternalName());
        mv.visitInsn(DUP);
        inst.pushArgs();
        callConstructor(ofType, inst.getTypes());
    }

    /** Calls the constructor on onType with the given args. */
    protected void callConstructor(Type onType, Type... args) {
        mv.visitMethodInsn(INVOKESPECIAL,
                           onType.getInternalName(),
                           "",
                           methodDesc(VOID, args));
    }

    /** Calls the method on onType with the given return type and argument types. */
    protected void call(Type onType, String methodName, Type returnType, Type... args) {
        mv.visitMethodInsn(INVOKEVIRTUAL,
                           onType.getInternalName(),
                           methodName,
                           methodDesc(returnType, args));
    }

    /** Calls the static method on onType with the given return type and argument types. */
    protected void callStatic(Type onType, String methodName, Type returnType, Type... args) {
        mv.visitMethodInsn(INVOKESTATIC,
                           onType.getInternalName(),
                           methodName,
                           methodDesc(returnType, args));
    }

    /** Produces a method descriptor with ret as its return type that takes args. */
    protected String methodDesc(Type ret, Type... args) {
        return Type.getMethodDescriptor(ret, args);
    }

    /**
     * Starts building a constructor in the class. Must be followed by a call to endConstructor
     * before startConstructor or startMethod may be called.
     */
    protected void startConstructor(Type... args) {
        startMethod("", VOID, args);
    }

    /** Closes the constructor begun by startConstructor. */
    protected void endConstructor() {
        endMethod(RETURN);
    }

    /**
     * Starts building a method in the class being generated. Must be followed by a call to
     * endMethod before startMethod or startConstructor may be called.
     */
    protected void startMethod(String name, Type ret, Type... args) {
        assert mv == null;
        mv = cv.visitMethod(ACC_PUBLIC, name, methodDesc(ret, args), null, null);
        mv.visitCode();
    }

    /** Closes the method under construction. */
    protected void endMethod(int returnCode) {
        mv.visitInsn(returnCode);
        mv.visitMaxs(0, 0);
        mv.visitEnd();
        mv = null;
    }

    /** Loads a field on the instance under construction of ofType onto the stack */
    protected void get(String fieldName, Type ofType) {
        mv.visitVarInsn(ALOAD, 0);
        mv.visitFieldInsn(GETFIELD, getInternalName(), fieldName, ofType.getDescriptor());
    }

    /**
     * Turns an object of inputType on the top of the stack into an equivalent Py type. Handles
     * primitives, void, and String. If void, the top item on the stack isn't touched.
     */
    protected void toPy(Type inputType) {
        if(inputType.equals(VOID)) {
            getStatic(PY, "None", PYOBJ);
        } else if(inputType.equals(STRING)) {
            Label newString = new Label();
            Label end = new Label();
            mv.visitInsn(DUP);
            mv.visitJumpInsn(IFNONNULL, newString);
            mv.visitInsn(POP);
            getStatic(PY, "None", PYOBJ);
            mv.visitJumpInsn(GOTO, end);
            mv.visitLabel(newString);
            callStatic(PY, "newString", PYSTR, STRING);
            mv.visitLabel(end);
        } else if(inputType.equals(BOOLEAN)) {
            callStatic(PY, "newBoolean", PYBOOLEAN, BOOLEAN);
        } else if(inputType.equals(INT) || inputType.equals(BYTE) || inputType.equals(SHORT)) {
            callStatic(PY, "newInteger", PYINTEGER, INT);
        } else if(inputType.equals(CHAR)) {
            callStatic(PY, "makeCharacter", PYSTR, CHAR);
        } else if(inputType.equals(Type.DOUBLE_TYPE)) {
            callStatic(PY, "newFloat", PYFLOAT, Type.DOUBLE_TYPE);
        } else if(inputType.equals(Type.FLOAT_TYPE)) {
            callStatic(PY, "newFloat", PYFLOAT, Type.FLOAT_TYPE);
        } else if(inputType.equals(Type.LONG_TYPE)) {
            callStatic(PY, "newLong", PYLONG, Type.LONG_TYPE);
        }
    }

    /** Gets a static field from onType of the given type. */
    protected void getStatic(Type onType, String fieldName, Type ofType) {
        mv.visitFieldInsn(GETSTATIC, onType.getInternalName(), fieldName, ofType.getDescriptor());
    }
}




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