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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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// Copyright (c) Corporation for National Research Initiatives
package org.python.core;

import java.io.ByteArrayOutputStream;
import java.io.CharArrayWriter;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.ObjectStreamException;
import java.io.OutputStream;
import java.io.PrintWriter;
import java.io.Serializable;
import java.io.StreamCorruptedException;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.sql.Date;
import java.sql.Time;
import java.sql.Timestamp;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.List;
import java.util.logging.Level;

import org.python.antlr.base.mod;
import org.python.core.adapter.ClassicPyObjectAdapter;
import org.python.core.adapter.ExtensiblePyObjectAdapter;
import org.python.modules.posix.PosixModule;

import jline.console.UserInterruptException;
import jnr.constants.Constant;
import jnr.constants.platform.Errno;
import jnr.posix.util.Platform;

public final class Py extends PrePy {

    static class SingletonResolver implements Serializable {

        private String which;

        SingletonResolver(String which) {
            this.which = which;
        }

        private Object readResolve() throws ObjectStreamException {
            if (which.equals("None")) {
                return Py.None;
            } else if (which.equals("Ellipsis")) {
                return Py.Ellipsis;
            } else if (which.equals("NotImplemented")) {
                return Py.NotImplemented;
            }
            throw new StreamCorruptedException("unknown singleton: " + which);
        }
    }

    /* Holds the singleton None and Ellipsis objects */
    /** The singleton None Python object **/
    public final static PyObject None = PyNone.getInstance();
    /** The singleton Ellipsis Python object - written as ... when indexing */
    public final static PyObject Ellipsis = new PyEllipsis();
    /** The singleton NotImplemented Python object. Used in rich comparison */
    public final static PyObject NotImplemented = new PyNotImplemented();
    /** A zero-length array of Strings to pass to functions that
    don't have any keyword arguments **/
    public final static String[] NoKeywords = new String[0];
    /** A zero-length array of PyObject's to pass to functions when we have no arguments **/
    public final static PyObject[] EmptyObjects = new PyObject[0];
    /** A frozenset with zero elements **/
    public final static PyFrozenSet EmptyFrozenSet = new PyFrozenSet();
    /** A tuple with zero elements **/
    public final static PyTuple EmptyTuple = new PyTuple(Py.EmptyObjects);
    /** The Python integer 0 **/
    public final static PyInteger Zero = new PyInteger(0);
    /** The Python integer 1 **/
    public final static PyInteger One = new PyInteger(1);
    /** The Python boolean False **/
    public final static PyBoolean False = new PyBoolean(false);
    /** The Python boolean True **/
    public final static PyBoolean True = new PyBoolean(true);
    /** A zero-length Python byte string **/
    public final static PyString EmptyString = PyString.fromInterned("");
    /** A zero-length Python Unicode string **/
    public final static PyUnicode EmptyUnicode = new PyUnicode("");
    /** A Python string containing '\n' **/
    public final static PyString Newline = PyString.fromInterned("\n");
    /** A Python unicode string containing '\n' **/
    public final static PyUnicode UnicodeNewline = new PyUnicode("\n");
    /** A Python string containing ' ' **/
    public final static PyString Space = PyString.fromInterned(" ");
    /** A Python unicode string containing ' ' **/
    public final static PyUnicode UnicodeSpace = new PyUnicode(" ");
    /** Set if the type object is dynamically allocated */
    public final static long TPFLAGS_HEAPTYPE = 1L << 9;
    /** Set if the type allows subclassing */
    public final static long TPFLAGS_BASETYPE = 1L << 10;
    /** Type is abstract and cannot be instantiated */
    public final static long TPFLAGS_IS_ABSTRACT = 1L << 20;


    /** A unique object to indicate no conversion is possible
    in __tojava__ methods **/
    public final static Object NoConversion = new PySingleton("Error");
    public static PyObject OSError;
    public static PyException OSError(String message) {
        return new PyException(Py.OSError, message);
    }

    public static PyException OSError(IOException ioe) {
        return fromIOException(ioe, Py.OSError);
    }

    public static PyException OSError(Constant errno) {
        int value = errno.intValue();
        PyObject args = new PyTuple(Py.newInteger(value), PosixModule.strerror(value));
        return new PyException(Py.OSError, args);
    }

    public static PyException OSError(Constant errno, PyObject filename) {
        int value = errno.intValue();
        // see https://github.com/jruby/jruby/commit/947c661e46683ea82f8016dde9d3fa597cd10e56
        // for rationale to do this mapping, but in a nutshell jnr-constants is automatically
        // generated from header files, so that's not the right place to do this mapping,
        // but for Posix compatibility reasons both CPython andCRuby do this mapping;
        // except CPython chooses EEXIST instead of CRuby's ENOENT
        if (Platform.IS_WINDOWS && (value == 20047 || value == Errno.ESRCH.intValue())) {
            value = Errno.EEXIST.intValue();
        }
        // Pass to strerror because jnr-constants currently lacks Errno descriptions on
        // Windows, and strerror falls back to Linux's
        PyObject args = new PyTuple(Py.newInteger(value), PosixModule.strerror(value), filename);
        return new PyException(Py.OSError, args);
    }

    public static PyObject NotImplementedError;
    public static PyException NotImplementedError(String message) {
        return new PyException(Py.NotImplementedError, message);
    }

    public static PyObject EnvironmentError;
    public static PyException EnvironmentError(String message) {
        return new PyException(Py.EnvironmentError, message);
    }

    /* The standard Python exceptions */
    public static PyObject OverflowError;

    public static PyException OverflowError(String message) {
        return new PyException(Py.OverflowError, message);
    }
    public static PyObject RuntimeError;

    public static PyException RuntimeError(String message) {
        return new PyException(Py.RuntimeError, message);
    }
    public static PyObject KeyboardInterrupt;
    public static PyException KeyboardInterrupt(String message) {
        return new PyException(Py.KeyboardInterrupt, message);
    }
    public static PyObject FloatingPointError;

    public static PyException FloatingPointError(String message) {
        return new PyException(Py.FloatingPointError, message);
    }
    public static PyObject SyntaxError;

    public static PyException SyntaxError(String message) {
        return new PyException(Py.SyntaxError, message);
    }
    public static PyObject IndentationError;
    public static PyObject TabError;
    public static PyObject AttributeError;

    public static PyException AttributeError(String message) {
        return new PyException(Py.AttributeError, message);
    }
    public static PyObject IOError;

    public static PyException IOError(IOException ioe) {
        return fromIOException(ioe, Py.IOError);
    }

    public static PyException IOError(String message) {
        return new PyException(Py.IOError, message);
    }

    public static PyException IOError(Constant errno) {
        int value = errno.intValue();
        PyObject args = new PyTuple(Py.newInteger(value), PosixModule.strerror(value));
        return new PyException(Py.IOError, args);
    }

    public static PyException IOError(Constant errno, String filename) {
        return IOError(errno, Py.fileSystemEncode(filename));
    }

    public static PyException IOError(Constant errno, PyObject filename) {
        int value = errno.intValue();
        PyObject args = new PyTuple(Py.newInteger(value), PosixModule.strerror(value), filename);
        return new PyException(Py.IOError, args);
    }

    private static PyException fromIOException(IOException ioe, PyObject err) {
        String message = ioe.getMessage();
        if (message == null) {
            message = ioe.getClass().getName();
        }
        if (ioe instanceof FileNotFoundException) {
            PyTuple args = new PyTuple(Py.newInteger(Errno.ENOENT.intValue()),
                                       Py.newStringOrUnicode("File not found - " + message));
            return new PyException(err, args);
        }
        return new PyException(err, message);
    }

    public static PyObject KeyError;

    public static PyException KeyError(String message) {
        return new PyException(Py.KeyError, message);
    }

    public static PyException KeyError(PyObject key) {
        return new PyException(Py.KeyError, key);
    }
    public static PyObject AssertionError;

    public static PyException AssertionError(String message) {
        return new PyException(Py.AssertionError, message);
    }
    public static PyObject TypeError;

    public static PyException TypeError(String message) {
        return new PyException(Py.TypeError, message);
    }
    public static PyObject ReferenceError;

    public static PyException ReferenceError(String message) {
        return new PyException(Py.ReferenceError, message);
    }
    public static PyObject SystemError;

    public static PyException SystemError(String message) {
        return new PyException(Py.SystemError, message);
    }
    public static PyObject IndexError;

    public static PyException IndexError(String message) {
        return new PyException(Py.IndexError, message);
    }
    public static PyObject ZeroDivisionError;

    public static PyException ZeroDivisionError(String message) {
        return new PyException(Py.ZeroDivisionError, message);
    }
    public static PyObject NameError;

    public static PyException NameError(String message) {
        return new PyException(Py.NameError, message);
    }
    public static PyObject UnboundLocalError;

    public static PyException UnboundLocalError(String message) {
        return new PyException(Py.UnboundLocalError, message);
    }
    public static PyObject SystemExit;

    static void maybeSystemExit(PyException exc) {
        if (exc.match(Py.SystemExit)) {
            // No actual exit here if Options.interactive (-i flag) is in force.
            handleSystemExit(exc);
        }
    }

    /**
     * Exit the process, if {@value Options#inspect}{@code ==false}, cleaning up the system state.
     * This exception (normally SystemExit) determines the message, if any, and the
     * {@code System.exit} status.
     *
     * @param exc supplies the message or exit status
     */
    static void handleSystemExit(PyException exc) {
        if (!Options.inspect) {
            PyObject value = exc.value;
            if (PyException.isExceptionInstance(exc.value)) {
                value = value.__findattr__("code");
            }

            // Decide exit status and produce message while Jython still works
            int exitStatus;
            if (value instanceof PyInteger) {
                exitStatus = ((PyInteger) value).getValue();
            } else {
                if (value != Py.None) {
                    try {
                        Py.println(value);
                        exitStatus = 1;
                    } catch (Throwable t) {
                        exitStatus = 0;
                    }
                } else {
                    exitStatus = 0;
                }
            }

            // Shut down Jython
            PySystemState sys = Py.getSystemState();
            sys.callExitFunc();
            sys.close();
            System.exit(exitStatus);
        }
    }

    public static PyObject StopIteration;

    public static PyException StopIteration(String message) {
        return new PyException(Py.StopIteration, message);
    }
    public static PyObject GeneratorExit;

    public static PyException GeneratorExit(String message) {
        return new PyException(Py.GeneratorExit, message);
    }
    public static PyObject ImportError;

    public static PyException ImportError(String message) {
        return new PyException(Py.ImportError, message);
    }
    public static PyObject ValueError;

    public static PyException ValueError(String message) {
        return new PyException(Py.ValueError, message);
    }
    public static PyObject UnicodeError;

    public static PyException UnicodeError(String message) {
        return new PyException(Py.UnicodeError, message);
    }
    public static PyObject UnicodeTranslateError;

    public static PyException UnicodeTranslateError(String object,
            int start,
            int end, String reason) {
        return new PyException(Py.UnicodeTranslateError, new PyTuple(new PyString(object),
                new PyInteger(start),
                new PyInteger(end),
                new PyString(reason)));
    }
    public static PyObject UnicodeDecodeError;

    public static PyException UnicodeDecodeError(String encoding,
            String object,
            int start,
            int end,
            String reason) {
        return new PyException(Py.UnicodeDecodeError, new PyTuple(new PyString(encoding),
                new PyString(object),
                new PyInteger(start),
                new PyInteger(end),
                new PyString(reason)));
    }
    public static PyObject UnicodeEncodeError;

    public static PyException UnicodeEncodeError(String encoding,
            String object,
            int start,
            int end,
            String reason) {
        return new PyException(Py.UnicodeEncodeError, new PyTuple(new PyString(encoding),
                new PyUnicode(object),
                new PyInteger(start),
                new PyInteger(end),
                new PyString(reason)));
    }
    public static PyObject EOFError;

    public static PyException EOFError(String message) {
        return new PyException(Py.EOFError, message);
    }
    public static PyObject MemoryError;

    public static void memory_error(OutOfMemoryError t) {
        if (Options.showJavaExceptions) {
            t.printStackTrace();
        }
    }

    public static PyException MemoryError(String message) {
        return new PyException(Py.MemoryError, message);
    }

    public static PyObject BufferError;
    public static PyException BufferError(String message) {
        return new PyException(Py.BufferError, message);
    }

    public static PyObject ArithmeticError;
    public static PyObject LookupError;
    public static PyObject StandardError;
    public static PyObject Exception;
    public static PyObject BaseException;

    public static PyObject Warning;

    public static void Warning(String message) {
        warning(Warning, message);
    }
    public static PyObject UserWarning;

    public static void UserWarning(String message) {
        warning(UserWarning, message);
    }
    public static PyObject DeprecationWarning;

    public static void DeprecationWarning(String message) {
        warning(DeprecationWarning, message);
    }
    public static PyObject PendingDeprecationWarning;

    public static void PendingDeprecationWarning(String message) {
        warning(PendingDeprecationWarning, message);
    }
    public static PyObject SyntaxWarning;

    public static void SyntaxWarning(String message) {
        warning(SyntaxWarning, message);
    }
    public static PyObject RuntimeWarning;

    public static void RuntimeWarning(String message) {
        warning(RuntimeWarning, message);
    }
    public static PyObject FutureWarning;

    public static void FutureWarning(String message) {
        warning(FutureWarning, message);
    }

    public static PyObject ImportWarning;
    public static void ImportWarning(String message) {
        warning(ImportWarning, message);
    }

    public static PyObject UnicodeWarning;
    public static void UnicodeWarning(String message) {
        warning(UnicodeWarning, message);
    }

    public static PyObject BytesWarning;
    public static void BytesWarning(String message) {
        warning(BytesWarning, message);
    }

    public static void warnPy3k(String message) {
        warnPy3k(message, 1);
    }

    public static void warnPy3k(String message, int stacklevel) {
        if (Options.py3k_warning) {
            warning(DeprecationWarning, message, stacklevel);
        }
    }

    private static PyObject warnings_mod;

    private static PyObject importWarnings() {
        if (warnings_mod != null) {
            return warnings_mod;
        }
        PyObject mod;
        try {
            mod = __builtin__.__import__("warnings");
        } catch (PyException e) {
            if (e.match(ImportError)) {
                return null;
            }
            throw e;
        }
        warnings_mod = mod;
        return mod;
    }

    private static String warn_hcategory(PyObject category) {
        PyObject name = category.__findattr__("__name__");
        if (name != null) {
            return "[" + name + "]";
        }
        return "[warning]";
    }

    public static void warning(PyObject category, String message) {
        warning(category, message, 1);
    }

    public static void warning(PyObject category, String message, int stacklevel) {
        PyObject func = null;
        PyObject mod = importWarnings();
        if (mod != null) {
            func = mod.__getattr__("warn");
        }
        if (func == null) {
            System.err.println(warn_hcategory(category) + ": " + message);
            return;
        } else {
            func.__call__(Py.newString(message), category, Py.newInteger(stacklevel));
        }
    }

    public static void warning(PyObject category, String message,
            String filename, int lineno, String module,
            PyObject registry) {
        PyObject func = null;
        PyObject mod = importWarnings();
        if (mod != null) {
            func = mod.__getattr__("warn_explicit");
        }
        if (func == null) {
            System.err.println(filename + ":" + lineno + ":" +
                    warn_hcategory(category) + ": " + message);
            return;
        } else {
            func.__call__(new PyObject[]{
                Py.newString(message), category,
                Py.newString(filename), Py.newInteger(lineno),
                (module == null) ? Py.None : Py.newString(module),
                registry
            }, Py.NoKeywords);
        }
    }
    public static PyObject JavaError;

    public static PyException JavaError(Throwable t) {
        if (t instanceof PyException) {
            return (PyException) t;
        } else if (t instanceof InvocationTargetException) {
            return JavaError(((InvocationTargetException) t).getTargetException());
        } else if (t instanceof StackOverflowError) {
            return Py.RuntimeError("maximum recursion depth exceeded (Java StackOverflowError)");
        } else if (t instanceof OutOfMemoryError) {
            memory_error((OutOfMemoryError) t);
        } else if (t instanceof UserInterruptException) {
            return Py.KeyboardInterrupt("");
        }
        PyObject exc = PyJavaType.wrapJavaObject(t);
        PyException pyex = new PyException(exc.getType(), exc);
        // Set the cause to the original throwable to preserve
        // the exception chain.
        pyex.initCause(t);
        return pyex;
    }

    private Py() {
    }

    /**
    Convert a given PyObject to an instance of a Java class.
    Identical to o.__tojava__(c) except that it will
    raise a TypeError if the conversion fails.
    @param o the PyObject to convert.
    @param c the class to convert it to.
     **/
    @SuppressWarnings("unchecked")
    public static  T tojava(PyObject o, Class c) {
        Object obj = o.__tojava__(c);
        if (obj == Py.NoConversion) {
            throw Py.TypeError("can't convert " + o.__repr__() + " to " +
                    c.getName());
        }
        return (T)obj;
    }

    // ??pending: was @deprecated but is actually used by proxie code.
    // Can get rid of it?
    public static Object tojava(PyObject o, String s) {
        Class c = findClass(s);
        if (c == null) {
            throw Py.TypeError("can't convert to: " + s);
        }
        return tojava(o, c); // prev:Class.forName
    }
    /* Helper functions for PyProxy's */

    /* Convenience methods to create new constants without using "new" */
    private final static PyInteger[] integerCache = new PyInteger[1000];

    static {
        for (int j = -100; j < 900; j++) {
            integerCache[j + 100] = new PyInteger(j);
        }
    }

    public static final PyInteger newInteger(int i) {
        if (i >= -100 && i < 900) {
            return integerCache[i + 100];
        } else {
            return new PyInteger(i);
        }
    }

    public static PyObject newInteger(long i) {
        if (i < Integer.MIN_VALUE || i > Integer.MAX_VALUE) {
            return new PyLong(i);
        } else {
            return newInteger((int) i);
        }
    }

    public static PyLong newLong(String s) {
        return new PyLong(s);
    }

    public static PyLong newLong(java.math.BigInteger i) {
        return new PyLong(i);
    }

    public static PyLong newLong(int i) {
        return new PyLong(i);
    }

    public static PyLong newLong(long l) {
        return new PyLong(l);
    }

    public static PyComplex newImaginary(double v) {
        return new PyComplex(0, v);
    }

    public static PyFloat newFloat(float v) {
        return new PyFloat((double) v);
    }

    public static PyFloat newFloat(double v) {
        return new PyFloat(v);
    }

    /**
     * Return a not-necessarily new {@link PyString} from a Java {@code char}. The character code
     * must < 256. (This is checked.)
     *
     * @param c character codes < 256.
     * @return a new or re-used {@code PyString}
     */
    public static PyString newString(char c) {
        return makeCharacter(c);
    }

    /**
     * Return a not-necessarily new {@link PyString} from a Java {@code String}. The character codes
     * must all be all < 256.
     *
     * @param s character codes are all < 256.
     * @param promise is true if the caller promises the codes are all < 256.
     * @return a new or re-used {@code PyString}
     */
    static PyString newString(String s, boolean promise) {
        int n = s.length();
        if (n > 1) {
            return new PyString(s, promise);
        } else if (n == 1) {
            return makeCharacter(s.charAt(0));
        } else {
            return Py.EmptyString;
        }
    }

    /**
     * Return a not-necessarily new {@link PyString} from a Java {@code String}. The character codes
     * must all be all < 256. (This is checked.)
     *
     * @param s character codes should all be < 256 or an error occurs.
     * @return a new or re-used {@code PyString}
     */
    public static PyString newString(String s) {
        return newString(s, false);
    }

    /**
     * Return a not-necessarily new  {@link PyString} from a Java {@code String} where the caller guarantees that the
     * character codes are all < 256. (This is not checked.)
     *
     * @param s character codes are all < 256.
     * @return a new {@code PyString}
     */
    static PyString newBytes(String s) {
        return newString(s, true);
    }

    /**
     * Return a {@link PyString} for the given Java String, if it can be represented as
     * US-ASCII, and a {@link PyUnicode} otherwise.
     *
     * @param s string content
     * @return PyString or PyUnicode according to content of
     *         s.
     */
    public static PyString newStringOrUnicode(String s) {
        return newStringOrUnicode(Py.EmptyString, s);
    }

    /**
     * Return a {@link PyString} for the given Java String, if it can be represented as
     * US-ASCII and if a preceding object is not a PyUnicode, and a {@link PyUnicode}
     * otherwise. In some contexts, we want the result to be a PyUnicode if some
     * preceding result is a PyUnicode.
     *
     * @param precedent string of which the type sets a precedent
     * @param s string content
     * @return PyString or PyUnicode according to content of
     *         s.
     */
    public static PyString newStringOrUnicode(PyObject precedent, String s) {
        if (!(precedent instanceof PyUnicode) && PyString.charsFitWidth(s, 7)) {
            return Py.newBytes(s);
        } else {
            return Py.newUnicode(s);
        }
    }

    public static PyString newStringUTF8(String s) {
        if (PyString.charsFitWidth(s, 7)) {
            // ascii of course is a subset of UTF-8
            return Py.newBytes(s);
        } else {
            return Py.newBytes(codecs.PyUnicode_EncodeUTF8(s, null));
        }
    }

    /**
     * Return a file name or path as Unicode (Java UTF-16 String), decoded if necessary
     * from a Python bytes object, using the file system encoding. In Jython, this
     * encoding is UTF-8, irrespective of the OS platform. This method is comparable with Python 3
     * os.fsdecode, but for Java use, in places such as the os module. If
     * the argument is not a PyUnicode, it will be decoded using the nominal Jython
     * file system encoding. If the argument is a PyUnicode, its
     * String is returned.
     *
     * @param filename as bytes to decode, or already as unicode
     * @return unicode version of path
     */
    public static String fileSystemDecode(PyString filename) {
        String s = filename.getString();
        if (filename instanceof PyUnicode || PyString.charsFitWidth(s, 7)) {
            // Already decoded or bytes usable as ASCII
            return s;
        } else {
            // It's bytes, so must decode properly
            assert "utf-8".equals(PySystemState.FILE_SYSTEM_ENCODING.toString());
            return codecs.PyUnicode_DecodeUTF8(s, null);
        }
    }

    /**
     * As {@link #fileSystemDecode(PyString)} but raising ValueError if not a
     * str or unicode.
     *
     * @param filename as bytes to decode, or already as unicode
     * @return unicode version of the file name
     */
    public static String fileSystemDecode(PyObject filename) {
        if (filename instanceof PyString) {
            return fileSystemDecode((PyString)filename);
        } else {
            throw Py.TypeError(String.format("coercing to Unicode: need string, %s type found",
                    filename.getType().fastGetName()));
        }
    }

    /**
     * Return a PyString object we can use as a file name or file path in places where Python
     * expects a bytes (that is a str) object in the file system encoding.
     * In Jython, this encoding is UTF-8, irrespective of the OS platform.
     * 

* This is subtly different from CPython's use of "file system encoding", which tracks the * platform's choice so that OS services may be called that have a bytes interface. Jython's * interaction with the OS occurs via Java using String arguments representing Unicode values, * so we have no need to match the encoding actually chosen by the platform (e.g. 'mbcs' on * Windows). Rather we need a nominal Jython file system encoding, for use where the standard * library forces byte paths on us (in Python 2). There is no reason for this choice to vary * with OS platform. Methods receiving paths as bytes will * {@link #fileSystemDecode(PyString)} them again for Java. * * @param filename as unicode to encode, or already as bytes * @return encoded bytes version of path */ public static PyString fileSystemEncode(String filename) { if (PyString.charsFitWidth(filename, 7)) { // Just wrap it as US-ASCII is a subset of the file system encoding return Py.newBytes(filename); } else { // It's non just US-ASCII, so must encode properly assert "utf-8".equals(PySystemState.FILE_SYSTEM_ENCODING.toString()); return Py.newBytes(codecs.PyUnicode_EncodeUTF8(filename, null)); } } /** * Return a PyString object we can use as a file name or file path in places where Python * expects a bytes (that is, str) object in the file system encoding. * In Jython, this encoding is UTF-8, irrespective of the OS platform. This method is comparable * with Python 3 os.fsencode. If the argument is a PyString, it is returned * unchanged. If the argument is a PyUnicode, it is converted to a bytes using the * nominal Jython file system encoding. * * @param filename as unicode to encode, or already as bytes * @return encoded bytes version of path */ public static PyString fileSystemEncode(PyString filename) { return (filename instanceof PyUnicode) ? fileSystemEncode(filename.getString()) : filename; } /** * Convert a PyList path to a list of Java String objects decoded from * the path elements to strings guaranteed usable in the Java API. * * @param path a Python search path * @return equivalent Java list */ private static List fileSystemDecode(PyList path) { List list = new ArrayList<>(path.__len__()); for (PyObject filename : path.getList()) { list.add(fileSystemDecode(filename)); } return list; } /** * Get the environment variables from {@code os.environ}. Keys and values should be * {@code PyString}s in the file system encoding, and it may be a {@code dict} but nothing can * be guaranteed. (Note that in the case of multiple interpreters, the target is in the current * interpreter's copy of {@code os}.) * * @return {@code os.environ} */ private static PyObject getEnvironment() { PyObject os = imp.importName("os", true); PyObject environ = os.__getattr__("environ"); return environ; } /** The same as {@code getenv(name, null)}. See {@link #getenv(PyString, PyString)}. */ public static PyString getenv(PyString name) { return getenv(name, null); } /** * Get the value of the environment variable named from {@code os.environ} or return the given * default value. Empty string values are treated as undefined for this purpose. * * @param name of the environment variable. * @param defaultValue to return if {@code key} is not defined (may be {@code null}. * @return the corresponding value or defaultValue. */ public static PyString getenv(PyString name, PyString defaultValue) { try { PyObject value = getEnvironment().__finditem__(name); if (value == null) { return defaultValue; } else { return value.__str__(); } } catch (PyException e) { // Something is fishy about os.environ, so the name is not defined. return defaultValue; } } /** The same as {@code getenv(name, null)}. See {@link #getenv(String, String)}. */ public static String getenv(String name) { return getenv(name, null); } /** * Get the value of the environment variable named from {@code os.environ} or return the given * default value. This is a convenience wrapper on {@link #getenv(PyString, PyString)} which * takes care of the fact that environment variables are FS-encoded. * * @param name to access in the environment. * @param defaultValue to return if {@code key} is not defined. * @return the corresponding value or defaultValue. */ public static String getenv(String name, String defaultValue) { PyString value = getenv(newUnicode(name), null); if (value == null) { return defaultValue; } else { // Environment variables are FS-encoded byte strings return fileSystemDecode(value); } } public static PyStringMap newStringMap() { return new PyStringMap(); } /** * Return a not-necessarily new {@link PyUnicode} from a Java {@code char}. Some low index chars * (ASCII) return a re-used {@code PyUnicode}. This method does not assume the character is * basic-plane. * * @param c to convert to a {@code PyUnicode}. * @return a new or re-used {@code PyUnicode} */ public static PyUnicode newUnicode(char c) { return PyUnicode.from(c); } /** * Return a not-necessarily new {@link PyUnicode} from a Java {@code String}. Empty and some * single-character strings return a re-used {@code PyUnicode}. This method does not assume the * character codes are basic-plane, but scans the string to find out. (See * {@link #newUnicode(String, boolean)} for one that allows the caller to assert that it is. * * @param s to wrap as a {@code PyUnicode}. * @return a new or re-used {@code PyUnicode} */ public static PyUnicode newUnicode(String s) { return PyUnicode.fromString(s, false); } public static PyUnicode newUnicode(String s, boolean isBasic) { return PyUnicode.fromString(s, isBasic); } public static PyBoolean newBoolean(boolean t) { return t ? Py.True : Py.False; } public static PyObject newDate(Date date) { if (date == null) { return Py.None; } PyObject datetimeModule = __builtin__.__import__("datetime"); PyObject dateClass = datetimeModule.__getattr__("date"); Calendar cal = Calendar.getInstance(); cal.setTime(date); return dateClass.__call__(newInteger(cal.get(Calendar.YEAR)), newInteger(cal.get(Calendar.MONTH) + 1), newInteger(cal.get(Calendar.DAY_OF_MONTH))); } public static PyObject newTime(Time time) { if (time == null) { return Py.None; } PyObject datetimeModule = __builtin__.__import__("datetime"); PyObject timeClass = datetimeModule.__getattr__("time"); Calendar cal = Calendar.getInstance(); cal.setTime(time); return timeClass.__call__(newInteger(cal.get(Calendar.HOUR_OF_DAY)), newInteger(cal.get(Calendar.MINUTE)), newInteger(cal.get(Calendar.SECOND)), newInteger(cal.get(Calendar.MILLISECOND) * 1000)); } public static PyObject newDatetime(Timestamp timestamp) { if (timestamp == null) { return Py.None; } PyObject datetimeModule = __builtin__.__import__("datetime"); PyObject datetimeClass = datetimeModule.__getattr__("datetime"); Calendar cal = Calendar.getInstance(); cal.setTime(timestamp); return datetimeClass.__call__(new PyObject[] { newInteger(cal.get(Calendar.YEAR)), newInteger(cal.get(Calendar.MONTH) + 1), newInteger(cal.get(Calendar.DAY_OF_MONTH)), newInteger(cal.get(Calendar.HOUR_OF_DAY)), newInteger(cal.get(Calendar.MINUTE)), newInteger(cal.get(Calendar.SECOND)), newInteger(timestamp.getNanos() / 1000)}); } public static PyObject newDecimal(String decimal) { if (decimal == null) { return Py.None; } PyObject decimalModule = __builtin__.__import__("decimal"); PyObject decimalClass = decimalModule.__getattr__("Decimal"); return decimalClass.__call__(newString(decimal)); } public static PyCode newCode(int argcount, String varnames[], String filename, String name, boolean args, boolean keywords, PyFunctionTable funcs, int func_id, String[] cellvars, String[] freevars, int npurecell, int moreflags) { return new PyTableCode(argcount, varnames, filename, name, 0, args, keywords, funcs, func_id, cellvars, freevars, npurecell, moreflags); } public static PyCode newCode(int argcount, String varnames[], String filename, String name, int firstlineno, boolean args, boolean keywords, PyFunctionTable funcs, int func_id, String[] cellvars, String[] freevars, int npurecell, int moreflags) { return new PyTableCode(argcount, varnames, filename, name, firstlineno, args, keywords, funcs, func_id, cellvars, freevars, npurecell, moreflags); } // -- public static PyCode newCode(int argcount, String varnames[], String filename, String name, boolean args, boolean keywords, PyFunctionTable funcs, int func_id) { return new PyTableCode(argcount, varnames, filename, name, 0, args, keywords, funcs, func_id); } public static PyCode newCode(int argcount, String varnames[], String filename, String name, int firstlineno, boolean args, boolean keywords, PyFunctionTable funcs, int func_id) { return new PyTableCode(argcount, varnames, filename, name, firstlineno, args, keywords, funcs, func_id); } public static PyCode newJavaCode(Class cls, String name) { return new JavaCode(newJavaFunc(cls, name)); } public static PyObject newJavaFunc(Class cls, String name) { try { Method m = cls.getMethod(name, new Class[]{PyObject[].class, String[].class}); return new JavaFunc(m); } catch (NoSuchMethodException e) { throw Py.JavaError(e); } } private static PyObject initExc(String name, PyObject exceptions, PyObject dict) { PyObject tmp = exceptions.__getattr__(name); dict.__setitem__(name, tmp); return tmp; } static void initClassExceptions(PyObject dict) { PyObject exc = imp.load("exceptions"); BaseException = initExc("BaseException", exc, dict); Exception = initExc("Exception", exc, dict); SystemExit = initExc("SystemExit", exc, dict); StopIteration = initExc("StopIteration", exc, dict); GeneratorExit = initExc("GeneratorExit", exc, dict); StandardError = initExc("StandardError", exc, dict); KeyboardInterrupt = initExc("KeyboardInterrupt", exc, dict); ImportError = initExc("ImportError", exc, dict); EnvironmentError = initExc("EnvironmentError", exc, dict); IOError = initExc("IOError", exc, dict); OSError = initExc("OSError", exc, dict); EOFError = initExc("EOFError", exc, dict); RuntimeError = initExc("RuntimeError", exc, dict); NotImplementedError = initExc("NotImplementedError", exc, dict); NameError = initExc("NameError", exc, dict); UnboundLocalError = initExc("UnboundLocalError", exc, dict); AttributeError = initExc("AttributeError", exc, dict); SyntaxError = initExc("SyntaxError", exc, dict); IndentationError = initExc("IndentationError", exc, dict); TabError = initExc("TabError", exc, dict); TypeError = initExc("TypeError", exc, dict); AssertionError = initExc("AssertionError", exc, dict); LookupError = initExc("LookupError", exc, dict); IndexError = initExc("IndexError", exc, dict); KeyError = initExc("KeyError", exc, dict); ArithmeticError = initExc("ArithmeticError", exc, dict); OverflowError = initExc("OverflowError", exc, dict); ZeroDivisionError = initExc("ZeroDivisionError", exc, dict); FloatingPointError = initExc("FloatingPointError", exc, dict); ValueError = initExc("ValueError", exc, dict); UnicodeError = initExc("UnicodeError", exc, dict); UnicodeEncodeError = initExc("UnicodeEncodeError", exc, dict); UnicodeDecodeError = initExc("UnicodeDecodeError", exc, dict); UnicodeTranslateError = initExc("UnicodeTranslateError", exc, dict); ReferenceError = initExc("ReferenceError", exc, dict); SystemError = initExc("SystemError", exc, dict); MemoryError = initExc("MemoryError", exc, dict); BufferError = initExc("BufferError", exc, dict); Warning = initExc("Warning", exc, dict); UserWarning = initExc("UserWarning", exc, dict); DeprecationWarning = initExc("DeprecationWarning", exc, dict); PendingDeprecationWarning = initExc("PendingDeprecationWarning", exc, dict); SyntaxWarning = initExc("SyntaxWarning", exc, dict); RuntimeWarning = initExc("RuntimeWarning", exc, dict); FutureWarning = initExc("FutureWarning", exc, dict); ImportWarning = initExc("ImportWarning", exc, dict); UnicodeWarning = initExc("UnicodeWarning", exc, dict); BytesWarning = initExc("BytesWarning", exc, dict); // Pre-initialize the PyJavaClass for OutOfMemoryError so when we need // it it creating the pieces for it won't cause an additional out of // memory error. Fix for bug #1654484 PyType.fromClass(OutOfMemoryError.class); } public static volatile PySystemState defaultSystemState; // This is a hack to get initializations to work in proper order public static synchronized boolean initPython() { PySystemState.initialize(); return true; } private static boolean syspathJavaLoaderRestricted = false; /** * Common code for {@link #findClass(String)} and {@link #findClassEx(String, String)}. * * @param name of the Java class to load and initialise * @param reason to be given in debug output (or {@code null} to suppress debug output. * @return the loaded class * @throws ClassNotFoundException if the class wasn't found by the class loader */ private static Class findClassInternal(String name, String reason) throws ClassNotFoundException { ClassLoader classLoader = Py.getSystemState().getClassLoader(); if (classLoader != null) { findClassTrying(name, reason, classLoader, "sys.classLoader"); return loadAndInitClass(name, classLoader); } if (!syspathJavaLoaderRestricted) { try { classLoader = imp.getSyspathJavaLoader(); findClassTrying(name, reason, classLoader, "SysPathJavaLoader"); } catch (SecurityException e) { syspathJavaLoaderRestricted = true; } } if (syspathJavaLoaderRestricted) { classLoader = imp.getParentClassLoader(); findClassTrying(name, reason, classLoader, "Jython's parent class loader"); } if (classLoader != null) { try { return loadAndInitClass(name, classLoader); } catch (ClassNotFoundException cnfe) { // let the default classloader try /* * XXX: by trying another classloader that may not be on a parent/child relationship * with the Jython's parent classsloader we are risking some nasty class loading * problems (such as having two incompatible copies for the same class that is * itself a dependency of two classes loaded from these two different class * loaders). */ } } classLoader = Thread.currentThread().getContextClassLoader(); findClassTrying(name, reason, classLoader, "context class loader, for backwards compatibility"); return loadAndInitClass(name, classLoader); } private static void findClassTrying(String name, String reason, ClassLoader cl, String place) { if (cl != null && reason != null && importLogger.isLoggable(Level.FINE)) { importLogger.log(Level.FINE, "# trying {0} as {1} in {2}", new Object[] {name, reason, place}); } } /** * Find and load a Java class by name. * * @param name of the Java class. * @return the class, or {@code null} if it wasn't found or something went wrong */ public static Class findClass(String name) { try { return findClassInternal(name, null); } catch (ClassNotFoundException | IllegalArgumentException | NoClassDefFoundError e) { // e.printStackTrace(); return null; } } /** * Find and load a Java class by name. * * @param name Name of the Java class. * @param reason for finding the class. Used in debugging messages. * @return the class, or {@code null} if it simply wasn't found * @throws PyException {@code JavaError} wrapping errors occurring when the class is found but * cannot be loaded. */ public static Class findClassEx(String name, String reason) throws PyException { try { return findClassInternal(name, reason); } catch (ClassNotFoundException e) { return null; } catch (IllegalArgumentException | LinkageError e) { throw JavaError(e); } } // An alias to express intent (since boolean flags aren't exactly obvious). // We *need* to initialize classes on findClass/findClassEx, so that import // statements can trigger static initializers private static Class loadAndInitClass(String name, ClassLoader loader) throws ClassNotFoundException { return Class.forName(name, true, loader); } public static void initProxy(PyProxy proxy, String module, String pyclass, Object[] args) { if (proxy._getPyInstance() != null) { return; } PyObject instance = (PyObject)(ThreadContext.initializingProxy.get()[0]); ThreadState ts = Py.getThreadState(); if (instance != null) { if (JyAttribute.hasAttr(instance, JyAttribute.JAVA_PROXY_ATTR)) { throw Py.TypeError("Proxy instance reused"); } JyAttribute.setAttr(instance, JyAttribute.JAVA_PROXY_ATTR, proxy); proxy._setPyInstance(instance); proxy._setPySystemState(ts.getSystemState()); return; } // Ensure site-packages are available before attempting to import module. // This step enables supporting modern Python apps when using proxies // directly from Java (eg through clamp). importSiteIfSelected(); PyObject mod = imp.importName(module.intern(), false); PyType pyc = (PyType)mod.__getattr__(pyclass.intern()); PyObject[] pargs; if (args == null || args.length == 0) { pargs = Py.EmptyObjects; } else { pargs = Py.javas2pys(args); } instance = pyc.__call__(pargs); JyAttribute.setAttr(instance, JyAttribute.JAVA_PROXY_ATTR, proxy); proxy._setPyInstance(instance); proxy._setPySystemState(ts.getSystemState()); } /** * Initializes a default PythonInterpreter and runs the code from * {@link PyRunnable#getMain} as __main__ * * Called by the code generated in {@link org.python.compiler.Module#addMain()} */ public static void runMain(PyRunnable main, String[] args) throws Exception { runMain(new PyRunnableBootstrap(main), args); } /** * Initializes a default PythonInterpreter and runs the code loaded from the * {@link CodeBootstrap} as __main__ Called by the code generated in * {@link org.python.compiler.Module#addMain()} */ public static void runMain(CodeBootstrap main, String[] args) throws Exception { PySystemState.initialize(null, null, args, main.getClass().getClassLoader()); try { imp.createFromCode("__main__", CodeLoader.loadCode(main)); } catch (PyException e) { Py.getSystemState().callExitFunc(); if (e.match(Py.SystemExit)) { return; } throw e; } Py.getSystemState().callExitFunc(); } //XXX: this needs review to make sure we are cutting out all of the Java exceptions. private static String getStackTrace(Throwable javaError) { CharArrayWriter buf = new CharArrayWriter(); javaError.printStackTrace(new PrintWriter(buf)); String str = buf.toString(); int index = -1; if (index == -1) { index = str.indexOf( "at org.python.core.PyReflectedConstructor.__call__"); } if (index == -1) { index = str.indexOf("at org.python.core.PyReflectedFunction.__call__"); } if (index == -1) { index = str.indexOf( "at org/python/core/PyReflectedConstructor.__call__"); } if (index == -1) { index = str.indexOf("at org/python/core/PyReflectedFunction.__call__"); } if (index != -1) { index = str.lastIndexOf("\n", index); } int index0 = str.indexOf("\n"); if (index >= index0) { str = str.substring(index0 + 1, index + 1); } return str; } /** * Display an exception and stack trace through * {@link #printException(Throwable, PyFrame, PyObject)}. * * @param t to display */ public static void printException(Throwable t) { printException(t, null, null); } /** * Display an exception and stack trace through * {@link #printException(Throwable, PyFrame, PyObject)}. * * @param t to display * @param f frame at which to start the stack trace */ public static void printException(Throwable t, PyFrame f) { printException(t, f, null); } /** * Display an exception and stack trace. If the exception was {@link Py#SystemExit} and * {@link Options#inspect}{@code ==false}, this will exit the JVM. * * @param t to display * @param f frame at which to start the stack trace * @param file output onto this stream or {@link Py#stderr} if {@code null} */ public static synchronized void printException(Throwable t, PyFrame f, PyObject file) { StdoutWrapper stderr = Py.stderr; if (file != null) { stderr = new FixedFileWrapper(file); } if (Options.showJavaExceptions) { stderr.println("Java Traceback:"); java.io.CharArrayWriter buf = new java.io.CharArrayWriter(); if (t instanceof PyException) { ((PyException)t).super__printStackTrace(new java.io.PrintWriter(buf)); } else { t.printStackTrace(new java.io.PrintWriter(buf)); } stderr.print(buf.toString()); } PyException exc = Py.JavaError(t); // Act on SystemExit here. maybeSystemExit(exc); setException(exc, f); ThreadState ts = getThreadState(); PySystemState sys = ts.getSystemState(); sys.last_value = exc.value; sys.last_type = exc.type; sys.last_traceback = exc.traceback; PyObject exceptHook = sys.__findattr__("excepthook"); if (exceptHook != null) { try { exceptHook.__call__(exc.type, exc.value, exc.traceback); } catch (PyException exc2) { exc2.normalize(); flushLine(); stderr.println("Error in sys.excepthook:"); displayException(exc2.type, exc2.value, exc2.traceback, file); stderr.println(); stderr.println("Original exception was:"); displayException(exc.type, exc.value, exc.traceback, file); } } else { stderr.println("sys.excepthook is missing"); displayException(exc.type, exc.value, exc.traceback, file); } ts.exception = null; } /** * Print the description of an exception as a big string. The arguments are closely equivalent * to the tuple returned by Python sys.exc_info, on standard error or a given * byte-oriented file. Compare with Python traceback.print_exception. * * @param type of exception * @param value the exception parameter (second argument to raise) * @param tb traceback of the call stack where the exception originally occurred * @param file to print encoded string to, or null meaning standard error */ public static void displayException(PyObject type, PyObject value, PyObject tb, PyObject file) { // Output is to standard error, unless a file object has been given. StdoutWrapper stderr = Py.stderr; // As we format the exception in Unicode, we deal with encoding in this method String encoding, errors = codecs.REPLACE; if (file != null) { // Ostensibly writing to a file: assume file content encoding (file.encoding) stderr = new FixedFileWrapper(file); encoding = codecs.getDefaultEncoding(); } else { // Not a file, assume we should encode for the console encoding = getAttr(Py.getSystemState().__stderr__, "encoding", null); } // But if the stream can tell us directly, of course we use that answer. encoding = getAttr(stderr.myFile(), "encoding", encoding); errors = getAttr(stderr.myFile(), "errors", errors); flushLine(); // The creation of the report operates entirely in Java String (to support Unicode). try { // Be prepared for formatting or printing to fail PyString bytes = exceptionToBytes(type, value, tb, encoding, errors); stderr.print(bytes); } catch (Exception ex) { // Looks like that exception just won't convert or print value = Py.newString(""); PyString bytes = exceptionToBytes(type, value, tb, encoding, errors); stderr.print(bytes); } } /** Get a String attribute from an object or a return a default. */ private static String getAttr(PyObject target, String internedName, String def) { PyObject attr = target.__findattr__(internedName); if (attr == null) { return def; } else if (attr instanceof PyUnicode) { return ((PyUnicode)attr).getString(); } else { return attr.__str__().getString(); } } /** * Helper for {@link #displayException(PyObject, PyObject, PyObject, PyObject)}, falling back to * US-ASCII as the last resort encoding. */ private static PyString exceptionToBytes(PyObject type, PyObject value, PyObject tb, String encoding, String errors) { String string = exceptionToString(type, value, tb); String bytes; // not UTF-16 try { // Format the exception and stack-trace in all its glory bytes = codecs.encode(Py.newUnicode(string), encoding, errors); } catch (Exception ex) { // Sometimes a working codec is just too much to ask bytes = codecs.PyUnicode_EncodeASCII(string, string.length(), codecs.REPLACE); } return Py.newString(bytes); } /** * Format the description of an exception as a big string. The arguments are closely equivalent * to the tuple returned by Python sys.exc_info. Compare with Python * traceback.format_exception. * * @param type of exception * @param value the exception parameter (second argument to raise) * @param tb traceback of the call stack where the exception originally occurred * @return string representation of the traceback and exception */ static String exceptionToString(PyObject type, PyObject value, PyObject tb) { // Compose the stack dump, syntax error, and actual exception in this buffer: StringBuilder buf; if (tb instanceof PyTraceback) { buf = new StringBuilder(((PyTraceback)tb).dumpStack()); } else { buf = new StringBuilder(); } if (__builtin__.isinstance(value, Py.SyntaxError)) { // The value part of the exception is a syntax error: first emit that. appendSyntaxError(buf, value); // Now supersede it with just the syntax error message for the next phase. value = value.__findattr__("msg"); if (value == null) { value = Py.None; } } if (value.getJavaProxy() != null) { Object javaError = value.__tojava__(Throwable.class); if (javaError != null && javaError != Py.NoConversion) { // The value is some Java Throwable: append that too buf.append(getStackTrace((Throwable)javaError)); } } // Formatting the value may raise UnicodeEncodeError: client must deal buf.append(formatException(type, value)).append('\n'); return buf.toString(); } /** * Helper to {@link #tracebackToString(PyObject, PyObject)} when the value in an exception turns * out to be a syntax error. */ private static void appendSyntaxError(StringBuilder buf, PyObject value) { PyObject filename = value.__findattr__("filename"); PyObject text = value.__findattr__("text"); PyObject lineno = value.__findattr__("lineno"); buf.append(" File \""); buf.append(filename == Py.None || filename == null ? "" : filename.toString()); buf.append("\", line "); buf.append(lineno == null ? Py.newString('0') : lineno); buf.append('\n'); if (text != Py.None && text != null && text.__len__() != 0) { appendSyntaxErrorText(buf, value.__findattr__("offset").asInt(), text.toString()); } } /** * Generate two lines showing where a SyntaxError was caused. * * @param buf to append with generated message text * @param offset the offset into text * @param text a source code line */ private static void appendSyntaxErrorText(StringBuilder buf, int offset, String text) { if (offset >= 0) { if (offset > 0 && offset == text.length()) { offset--; } // Eat lines if the offset is on a subsequent line while (true) { int nl = text.indexOf("\n"); if (nl == -1 || nl >= offset) { break; } offset -= nl + 1; text = text.substring(nl + 1, text.length()); } // lstrip int i = 0; for (; i < text.length(); i++) { char c = text.charAt(i); if (c != ' ' && c != '\t') { break; } offset--; } text = text.substring(i, text.length()); } buf.append(" "); buf.append(text); if (text.length() == 0 || !text.endsWith("\n")) { buf.append('\n'); } if (offset == -1) { return; } // The indicator line " ^" buf.append(" "); for (offset--; offset > 0; offset--) { buf.append(' '); } buf.append("^\n"); } public static String formatException(PyObject type, PyObject value) { return formatException(type, value, false); } public static String formatException(PyObject type, PyObject value, boolean useRepr) { StringBuilder buf = new StringBuilder(); if (PyException.isExceptionClass(type)) { String className = PyException.exceptionClassName(type); int lastDot = className.lastIndexOf('.'); if (lastDot != -1) { className = className.substring(lastDot + 1); } PyObject moduleName = type.__findattr__("__module__"); if (moduleName == null) { buf.append(""); } else { String moduleStr = moduleName.toString(); if (!moduleStr.equals("exceptions")) { buf.append(moduleStr); buf.append("."); } } buf.append(className); } else { // Never happens since Python 2.7? Do something sensible anyway. buf.append(asMessageString(type, useRepr)); } if (value != null && value != Py.None) { String s = asMessageString(value, useRepr); // Print colon and object (unless it renders as "") if (s.length() > 0) { buf.append(": ").append(s); } } return buf.toString(); } /** Defensive method to avoid exceptions from decoding (or import encodings) */ private static String asMessageString(PyObject value, boolean useRepr) { if (useRepr) { value = value.__repr__(); } if (value instanceof PyUnicode) { return value.asString(); } else { return value.__str__().getString(); } } public static void writeUnraisable(Throwable unraisable, PyObject obj) { PyException pye = JavaError(unraisable); stderr.println(String.format("Exception %s in %s ignored", formatException(pye.type, pye.value, true), obj)); } /* Equivalent to Python's assert statement */ public static void assert_(PyObject test, PyObject message) { if (!test.__nonzero__()) { throw new PyException(Py.AssertionError, message); } } public static void assert_(PyObject test) { assert_(test, Py.None); } /* Helpers to implement finally clauses */ public static void addTraceback(Throwable t, PyFrame frame) { Py.JavaError(t).tracebackHere(frame, true); } /* Helpers to implement except clauses */ public static PyException setException(Throwable t, PyFrame frame) { PyException pye = Py.JavaError(t); pye.normalize(); pye.tracebackHere(frame); getThreadState().exception = pye; return pye; } /** * @deprecated As of Jython 2.5, use {@link PyException#match} instead. */ @Deprecated public static boolean matchException(PyException pye, PyObject exc) { return pye.match(exc); } // XXX: the following 4 are backwards compat. for the // oldcompiler. newcompiler should just call doRaise instead public static PyException makeException(PyObject type, PyObject value, PyObject traceback) { return PyException.doRaise(type, value, traceback); } public static PyException makeException(PyObject type, PyObject value) { return makeException(type, value, null); } public static PyException makeException(PyObject type) { return makeException(type, null); } public static PyException makeException() { return makeException(null); } public static PyObject runCode(PyCode code, PyObject locals, PyObject globals) { PyFrame f; ThreadState ts = getThreadState(); if (locals == null || locals == Py.None) { if (globals != null && globals != Py.None) { locals = globals; } else { locals = ts.frame.getLocals(); } } if (globals == null || globals == Py.None) { globals = ts.frame.f_globals; } else if (globals.__finditem__("__builtins__") == null) { // Apply side effect of copying into globals, // per documentation of eval and observed behavior of exec try { globals.__setitem__("__builtins__", Py.getSystemState().modules.__finditem__("__builtin__").__getattr__("__dict__")); } catch (PyException e) { // Quietly ignore if cannot set __builtins__ - Jython previously allowed a much wider range of // mappable objects for the globals mapping than CPython, do not want to break existing code // as we try to get better CPython compliance if (!e.match(AttributeError)) { throw e; } } } PyBaseCode baseCode = null; if (code instanceof PyBaseCode) { baseCode = (PyBaseCode) code; } f = new PyFrame(baseCode, locals, globals, Py.getSystemState().getBuiltins()); return code.call(ts, f); } public static void exec(PyObject o, PyObject globals, PyObject locals) { PyCode code; int flags = 0; if (o instanceof PyTuple) { PyTuple tuple = (PyTuple) o; int len = tuple.__len__(); if ((globals == null || globals.equals(None)) && (locals == null || locals.equals(None)) && (len >= 2 && len <= 3)) { o = tuple.__getitem__(0); globals = tuple.__getitem__(1); if (len == 3) { locals = tuple.__getitem__(2); } } } if (o instanceof PyCode) { code = (PyCode) o; if (locals == null && o instanceof PyBaseCode && ((PyBaseCode) o).hasFreevars()) { throw Py.TypeError("code object passed to exec may not contain free variables"); } } else { String contents = null; if (o instanceof PyString) { if (o instanceof PyUnicode) { flags |= CompilerFlags.PyCF_SOURCE_IS_UTF8; } contents = o.toString(); } else if (o instanceof PyFile) { PyFile fp = (PyFile) o; if (fp.getClosed()) { return; } contents = fp.read().toString(); } else { throw Py.TypeError( "exec: argument 1 must be string, code or file object"); } code = Py.compile_flags(contents, "", CompileMode.exec, getCompilerFlags(flags, false)); } Py.runCode(code, locals, globals); } private final static ThreadStateMapping threadStateMapping = new ThreadStateMapping(); public static final ThreadState getThreadState() { return getThreadState(null); } public static final ThreadState getThreadState(PySystemState newSystemState) { return threadStateMapping.getThreadState(newSystemState); } public static final PySystemState setSystemState(PySystemState newSystemState) { ThreadState ts = getThreadState(newSystemState); PySystemState oldSystemState = ts.getSystemState(); if (oldSystemState != newSystemState) { //XXX: should we make this a real warning? //System.err.println("Warning: changing systemState "+ // "for same thread!"); ts.setSystemState(newSystemState); } return oldSystemState; } public static final PySystemState getSystemState() { return getThreadState().getSystemState(); } /* Get and set the current frame */ public static PyFrame getFrame() { ThreadState ts = getThreadState(); if (ts == null) { return null; } return ts.frame; } public static void setFrame(PyFrame f) { getThreadState().frame = f; } /** * The handler for interactive consoles, set by {@link #installConsole(Console)} and accessed by * {@link #getConsole()}. */ private static Console console; /** * Get the Jython Console (used for input(), raw_input(), etc.) as * constructed and set by {@link PySystemState} initialization. * * @return the Jython Console */ public static Console getConsole() { if (console == null) { // We really shouldn't ask for a console before PySystemState initialization but ... try { // ... something foolproof that we can supersede. installConsole(new PlainConsole("ascii")); } catch (Exception e) { // This really, really shouldn't happen throw Py.RuntimeError("Could not create fall-back PlainConsole: " + e); } } return console; } /** * Install the provided Console, first uninstalling any current one. The Jython Console is used * for raw_input() etc., and may provide line-editing and history recall at the * prompt. A Console may replace System.in with its line-editing input method. * * @param console The new Console object * @throws UnsupportedOperationException if some prior Console refuses to uninstall * @throws IOException if {@link Console#install()} raises it */ public static void installConsole(Console console) throws UnsupportedOperationException, IOException { if (Py.console != null) { // Some Console class already installed: may be able to uninstall Py.console.uninstall(); Py.console = null; } // Install the specified Console console.install(); Py.console = console; // Cause sys (if it exists) to export the console handler that was installed if (Py.defaultSystemState != null) { Py.defaultSystemState.__setattr__("_jy_console", Py.java2py(console)); } } private static final String IMPORT_SITE_ERROR = "" + "Cannot import site module and its dependencies: %s\n" + "Determine if the following attributes are correct:\n" // + " * sys.path: %s\n" + " This attribute might be including the wrong directories, such as from CPython\n" + " * sys.prefix: %s\n" + " This attribute is set by the system property python.home, although it can\n" + " be often automatically determined by the location of the Jython jar file\n\n" + "You can use the -S option or python.import.site=false to not import the site module"; public static boolean importSiteIfSelected() { // Ensure sys.flags.no_site actually reflects what happened. (See docs of these two.) Options.no_site = !Options.importSite; if (Options.importSite) { try { // Ensure site-packages are available imp.load("site"); return true; } catch (PyException pye) { if (pye.match(Py.ImportError)) { PySystemState sys = Py.getSystemState(); String value = pye.value.__getattr__("args").__getitem__(0).toString(); List path = fileSystemDecode(sys.path); String prefix = fileSystemDecode(PySystemState.prefix); throw Py.ImportError(String.format(IMPORT_SITE_ERROR, value, path, prefix)); } else { throw pye; } } } return false; } /* A collection of functions for implementing the print statement */ public static StdoutWrapper stderr = new StderrWrapper(); static StdoutWrapper stdout = new StdoutWrapper(); //public static StdinWrapper stdin; public static void print(PyObject file, PyObject o) { if (file == None) { print(o); } else { new FixedFileWrapper(file).print(o); } } public static void printComma(PyObject file, PyObject o) { if (file == None) { printComma(o); } else { new FixedFileWrapper(file).printComma(o); } } public static void println(PyObject file, PyObject o) { if (file == None) { println(o); } else { new FixedFileWrapper(file).println(o); } } public static void printlnv(PyObject file) { if (file == None) { println(); } else { new FixedFileWrapper(file).println(); } } public static void print(PyObject o) { stdout.print(o); } public static void printComma(PyObject o) { stdout.printComma(o); } public static void println(PyObject o) { stdout.println(o); } public static void println() { stdout.println(); } public static void flushLine() { stdout.flushLine(); } /* * A collection of convenience functions for converting PyObjects to Java primitives */ public static boolean py2boolean(PyObject o) { return o.__nonzero__(); } public static byte py2byte(PyObject o) { if (o instanceof PyInteger) { return (byte) ((PyInteger) o).getValue(); } Object i = o.__tojava__(Byte.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError("integer required"); } return ((Byte) i).byteValue(); } public static short py2short(PyObject o) { if (o instanceof PyInteger) { return (short) ((PyInteger) o).getValue(); } Object i = o.__tojava__(Short.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError("integer required"); } return ((Short) i).shortValue(); } public static int py2int(PyObject o) { return py2int(o, "integer required"); } public static int py2int(PyObject o, String msg) { if (o instanceof PyInteger) { return ((PyInteger) o).getValue(); } Object obj = o.__tojava__(Integer.TYPE); if (obj == Py.NoConversion) { throw Py.TypeError(msg); } return ((Integer) obj).intValue(); } public static long py2long(PyObject o) { if (o instanceof PyInteger) { return ((PyInteger) o).getValue(); } Object i = o.__tojava__(Long.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError("integer required"); } return ((Long) i).longValue(); } public static float py2float(PyObject o) { if (o instanceof PyFloat) { return (float) ((PyFloat) o).getValue(); } if (o instanceof PyInteger) { return ((PyInteger) o).getValue(); } Object i = o.__tojava__(Float.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError("float required"); } return ((Float) i).floatValue(); } public static double py2double(PyObject o) { if (o instanceof PyFloat) { return ((PyFloat) o).getValue(); } if (o instanceof PyInteger) { return ((PyInteger) o).getValue(); } Object i = o.__tojava__(Double.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError("float required"); } return ((Double) i).doubleValue(); } public static char py2char(PyObject o) { return py2char(o, "char required"); } public static char py2char(PyObject o, String msg) { if (o instanceof PyString) { PyString s = (PyString) o; if (s.__len__() != 1) { throw Py.TypeError(msg); } return s.toString().charAt(0); } if (o instanceof PyInteger) { return (char) ((PyInteger) o).getValue(); } Object i = o.__tojava__(Character.TYPE); if (i == null || i == Py.NoConversion) { throw Py.TypeError(msg); } return ((Character) i).charValue(); } public static void py2void(PyObject o) { if (o != Py.None) { throw Py.TypeError("None required for void return"); } } /** Table used by {@link #makeCharacter(char)} to intern single byte strings. */ private final static PyString[] bytes = new PyString[256]; static { for (char j = 0; j < 256; j++) { bytes[j] = new PyString(j); } } public static final PyString makeCharacter(Character o) { return makeCharacter(o.charValue()); } public static final PyString makeCharacter(char c) { if (c < 256) { return bytes[c]; } else { // This will throw IllegalArgumentException since non-byte value return new PyString(c); } } public static final PyUnicode makeUnicodeCharacter(int codepoint) { return PyUnicode.fromCodepoint(codepoint); } /** * Uses the PyObjectAdapter passed to {@link PySystemState#initialize} to turn o into a PyObject. * * @see ClassicPyObjectAdapter - default PyObjectAdapter type */ public static PyObject java2py(Object o) { return getAdapter().adapt(o); } /** * Uses the PyObjectAdapter passed to {@link PySystemState#initialize} to turn * objects into an array of PyObjects. * * @see ClassicPyObjectAdapter - default PyObjectAdapter type */ public static PyObject[] javas2pys(Object... objects) { PyObject[] objs = new PyObject[objects.length]; for (int i = 0; i < objs.length; i++) { objs[i] = java2py(objects[i]); } return objs; } /** * @return the ExtensiblePyObjectAdapter used by java2py. */ public static ExtensiblePyObjectAdapter getAdapter() { if (adapter == null) { adapter = new ClassicPyObjectAdapter(); } return adapter; } /** * Set the ExtensiblePyObjectAdapter used by java2py. * * @param adapter The new ExtensiblePyObjectAdapter */ protected static void setAdapter(ExtensiblePyObjectAdapter adapter) { Py.adapter = adapter; } /** * Handles wrapping Java objects in PyObject to expose them to jython. */ private static ExtensiblePyObjectAdapter adapter; // XXX: The following two makeClass overrides are *only* for the // old compiler, they should be removed when the newcompiler hits public static PyObject makeClass(String name, PyObject[] bases, PyCode code) { return makeClass(name, bases, code, null); } public static PyObject makeClass(String name, PyObject[] bases, PyCode code, PyObject[] closure_cells) { ThreadState state = getThreadState(); PyObject dict = code.call(state, Py.EmptyObjects, Py.NoKeywords, state.frame.f_globals, Py.EmptyObjects, new PyTuple(closure_cells)); return makeClass(name, bases, dict); } public static PyObject makeClass(String name, PyObject base, PyObject dict) { PyObject[] bases = base == null ? EmptyObjects : new PyObject[] {base}; return makeClass(name, bases, dict); } /** * Create a new Python class. * * @param name the String name of the class * @param bases an array of PyObject base classes * @param dict the class's namespace, containing the class body * definition * @return a new Python Class PyObject */ public static PyObject makeClass(String name, PyObject[] bases, PyObject dict) { PyObject metaclass = dict.__finditem__("__metaclass__"); if (metaclass == null) { if (bases.length != 0) { PyObject base = bases[0]; metaclass = base.__findattr__("__class__"); if (metaclass == null) { metaclass = base.getType(); } } else { PyObject globals = getFrame().f_globals; if (globals != null) { metaclass = globals.__finditem__("__metaclass__"); } if (metaclass == null) { metaclass = PyClass.TYPE; } } } try { return metaclass.__call__(new PyString(name), new PyTuple(bases), dict); } catch (PyException pye) { if (!pye.match(TypeError)) { throw pye; } pye.value = Py.newString(String.format("Error when calling the metaclass bases\n " + "%s", pye.value.__str__().toString())); throw pye; } } private static int nameindex = 0; public static synchronized String getName() { String name = "org.python.pycode._pyx" + nameindex; nameindex += 1; return name; } public static CompilerFlags getCompilerFlags() { return CompilerFlags.getCompilerFlags(); } public static CompilerFlags getCompilerFlags(int flags, boolean dont_inherit) { final PyFrame frame; if (dont_inherit) { frame = null; } else { frame = Py.getFrame(); } return CompilerFlags.getCompilerFlags(flags, frame); } public static CompilerFlags getCompilerFlags(CompilerFlags flags, boolean dont_inherit) { final PyFrame frame; if (dont_inherit) { frame = null; } else { frame = Py.getFrame(); } return CompilerFlags.getCompilerFlags(flags, frame); } // w/o compiler-flags public static PyCode compile(InputStream istream, String filename, CompileMode kind) { return compile_flags(istream, filename, kind, new CompilerFlags()); } /** * Entry point for compiling modules. * * @param node Module node, coming from the parsing process * @param name Internal name for the compiled code. Typically generated by * calling {@link #getName()}. * @param filename Source file name * @param linenumbers True to track source line numbers on the generated * code * @param printResults True to call the sys.displayhook on the result of * the code * @param cflags Compiler flags * @return Code object for the compiled module */ public static PyCode compile_flags(mod node, String name, String filename, boolean linenumbers, boolean printResults, CompilerFlags cflags) { return CompilerFacade.compile(node, name, filename, linenumbers, printResults, cflags); } public static PyCode compile_flags(mod node, String filename, CompileMode kind, CompilerFlags cflags) { return Py.compile_flags(node, getName(), filename, true, kind == CompileMode.single, cflags); } /** * Compiles python source code coming from a file or another external stream */ public static PyCode compile_flags(InputStream istream, String filename, CompileMode kind, CompilerFlags cflags) { mod node = ParserFacade.parse(istream, kind, filename, cflags); return Py.compile_flags(node, filename, kind, cflags); } /** * Compiles python source code coming from String (raw bytes) data. * * If the String is properly decoded (from PyUnicode) the PyCF_SOURCE_IS_UTF8 flag * should be specified. */ public static PyCode compile_flags(String data, String filename, CompileMode kind, CompilerFlags cflags) { if (data.contains("\0")) { throw Py.TypeError("compile() expected string without null bytes"); } if (cflags != null && cflags.dont_imply_dedent) { data += "\n"; } else { data += "\n\n"; } mod node = ParserFacade.parse(data, kind, filename, cflags); return Py.compile_flags(node, filename, kind, cflags); } public static PyObject compile_command_flags(String string, String filename, CompileMode kind, CompilerFlags cflags, boolean stdprompt) { mod node = ParserFacade.partialParse(string + "\n", kind, filename, cflags, stdprompt); if (node == null) { return Py.None; } return Py.compile_flags(node, Py.getName(), filename, true, true, cflags); } public static PyObject[] unpackSequence(PyObject obj, int length) { if (obj instanceof PyTuple && obj.__len__() == length) { // optimization return ((PyTuple)obj).getArray(); } PyObject[] ret = new PyObject[length]; PyObject iter = obj.__iter__(); for (int i = 0; i < length; i++) { PyObject tmp = iter.__iternext__(); if (tmp == null) { throw Py.ValueError(String.format("need more than %d value%s to unpack", i, i == 1 ? "" : "s")); } ret[i] = tmp; } if (iter.__iternext__() != null) { throw Py.ValueError("too many values to unpack"); } return ret; } public static PyObject iter(PyObject seq, String message) { try { return seq.__iter__(); } catch (PyException exc) { if (exc.match(Py.TypeError)) { throw Py.TypeError(message); } throw exc; } } private static IdImpl idimpl = new IdImpl(); public static long id(PyObject o) { return idimpl.id(o); } public static String idstr(PyObject o) { return idimpl.idstr(o); } public static long java_obj_id(Object o) { return idimpl.java_obj_id(o); } public static void printResult(PyObject ret) { Py.getThreadState().getSystemState().invoke("displayhook", ret); } public static void saveClassFile(String name, ByteArrayOutputStream bytestream) { String dirname = Options.proxyDebugDirectory; if (dirname == null) { return; } byte[] bytes = bytestream.toByteArray(); File dir = new File(dirname); File file = makeFilename(name, dir); new File(file.getParent()).mkdirs(); try { FileOutputStream o = new FileOutputStream(file); o.write(bytes); o.close(); } catch (Throwable t) { t.printStackTrace(); } } private static File makeFilename(String name, File dir) { int index = name.indexOf("."); if (index == -1) { return new File(dir, name + ".class"); } return makeFilename(name.substring(index + 1, name.length()), new File(dir, name.substring(0, index))); } public static boolean isInstance(PyObject inst, PyObject cls) { // Quick test for an exact match if (inst.getType() == cls) { return true; } if (cls instanceof PyTuple) { for (PyObject item : cls.asIterable()) { if (isInstance(inst, item)) { return true; } } return false; } PyObject checkerResult; if ((checkerResult = dispatchToChecker(inst, cls, "__instancecheck__")) != null) { return checkerResult.__nonzero__(); } return recursiveIsInstance(inst, cls); } static boolean recursiveIsInstance(PyObject inst, PyObject cls) { if (cls instanceof PyClass && inst instanceof PyInstance) { PyClass inClass = ((PyInstance) inst).fastGetClass(); return inClass.isSubClass((PyClass) cls); } if (cls instanceof PyType) { PyType type = (PyType)cls; //Special case PyStringMap to compare as an instance type dict. if (inst instanceof PyStringMap && type.equals(PyDictionary.TYPE)) { return true; } PyType instType = inst.getType(); // equiv. to PyObject_TypeCheck if (instType == type || instType.isSubType(type)) { return true; } PyObject instCls = inst.__findattr__("__class__"); if (instCls != null && instCls != instType && instCls instanceof PyType) { return ((PyType) instCls).isSubType(type); } return false; } checkClass(cls, "isinstance() arg 2 must be a class, type, or tuple of classes and types"); PyObject instCls = inst.__findattr__("__class__"); if (instCls == null) { return false; } return abstractIsSubClass(instCls, cls); } public static boolean isSubClass(PyObject derived, PyObject cls) { if (cls instanceof PyTuple) { for (PyObject item : cls.asIterable()) { if (isSubClass(derived, item)) { return true; } } return false; } PyObject checkerResult; if ((checkerResult = dispatchToChecker(derived, cls, "__subclasscheck__")) != null) { return checkerResult.__nonzero__(); } return recursiveIsSubClass(derived, cls); } static boolean recursiveIsSubClass(PyObject derived, PyObject cls) { if (derived instanceof PyType && cls instanceof PyType) { if (derived == cls) { return true; } PyType type = (PyType)cls; PyType subtype = (PyType)derived; // Special case PyStringMap to compare as a subclass of // PyDictionary. Note that we don't need to check for stringmap // subclasses, since stringmap can't be subclassed. PyStringMap's // TYPE is computed lazily, so we have to use PyType.fromClass :( if (type == PyDictionary.TYPE && subtype == PyType.fromClass(PyStringMap.class)) { return true; } return subtype.isSubType(type); } if (derived instanceof PyClass && cls instanceof PyClass) { return ((PyClass) derived).isSubClass((PyClass) cls); } checkClass(derived, "issubclass() arg 1 must be a class"); checkClass(cls, "issubclass() arg 2 must be a class or tuple of classes"); return abstractIsSubClass(derived, cls); } private static boolean abstractIsSubClass(PyObject derived, PyObject cls) { while (true) { if (derived == cls) { return true; } PyTuple bases = abstractGetBases(derived); if (bases == null) { return false; } int basesSize = bases.size(); if (basesSize == 0) { return false; } if (basesSize == 1) { // Avoid recursivity in the single inheritance case derived = bases.pyget(0); continue; } for (PyObject base : bases.asIterable()) { if (abstractIsSubClass(base, cls)) { return true; } } return false; } } /** * Attempt to dispatch an isinstance/issubclass call to cls's associated * __instancecheck__/__subclasscheck__. * * @param checkerArg the argument to call the checker with * @param cls a Python class * @param checkerName the checker name * @return null if cls provides no checker, otherwise the result of calling the * checker */ private static PyObject dispatchToChecker(PyObject checkerArg, PyObject cls, String checkerName) { //Ignore old style classes. if (cls instanceof PyClass) { return null; } /* Here we would actually like to call cls.__findattr__("__metaclass__") * rather than cls.getType(). However there are circumstances where the * metaclass doesn't show up as __metaclass__. On the other hand we need * to avoid that checker refers to builtin type___subclasscheck__ or * type___instancecheck__. Filtering out checker-instances of * PyBuiltinMethodNarrow does the trick. We also filter out PyMethodDescr * to shortcut some unnecessary looping. */ PyObject checker = cls.getType().__findattr__(checkerName); if (checker == null || checker instanceof PyMethodDescr || checker instanceof PyBuiltinMethodNarrow) { return null; } return checker.__call__(cls, checkerArg); } /** * Return the __bases__ of cls. Returns null if no valid __bases__ are found. */ private static PyTuple abstractGetBases(PyObject cls) { PyObject bases = cls.__findattr__("__bases__"); return bases instanceof PyTuple ? (PyTuple) bases : null; } /** * Throw a TypeError with the specified message if cls does not appear to be a Python * class. */ private static void checkClass(PyObject cls, String message) { if (abstractGetBases(cls) == null) { throw Py.TypeError(message); } } /** * Turn any Python iterable into an array of its elements. * * @param iterable to evaluate * @return array of elements from iterable */ static PyObject[] make_array(PyObject iterable) { // Special-case the common tuple and list cases, for efficiency if (iterable instanceof PySequenceList) { return ((PySequenceList) iterable).getArray(); } else { int n = 10; if (!(iterable instanceof PyGenerator)) { try { n = iterable.__len__(); // may be available, otherwise ... } catch (PyException pye) { /* ... leave n at 0 */ } } List objs = new ArrayList(n); for (PyObject item : iterable.asIterable()) { objs.add(item); } return objs.toArray(Py.EmptyObjects); } } //------------------------constructor-section--------------------------- static class py2JyClassCacheItem { List> interfaces; List pyClasses; public py2JyClassCacheItem(Class initClass, PyObject initPyClass) { if (!initClass.isInterface()) { throw new IllegalArgumentException("cls must be an interface."); } interfaces = new ArrayList<>(1); pyClasses = new ArrayList<>(1); interfaces.add(initClass); pyClasses.add(initPyClass); } public PyObject get(Class cls) { for (int i = 0; i < interfaces.size(); ++i) { if (cls.isAssignableFrom(interfaces.get(i))) { return pyClasses.get(i); } } return null; } public void add(Class cls, PyObject pyCls) { if (!cls.isInterface()) { throw new IllegalArgumentException("cls must be an interface."); } interfaces.add(0, cls); pyClasses.add(0, pyCls); for (int i = interfaces.size()-1; i > 0; --i) { if (interfaces.get(i).isAssignableFrom(cls)) { interfaces.remove(i); pyClasses.remove(i); } } } } protected static PyObject ensureInterface(PyObject cls, Class interfce) { PyObject pjc = PyType.fromClass(interfce); if (Py.isSubClass(cls, pjc)) { return cls; } PyObject[] bases = {cls, pjc}; return Py.makeClass(interfce.getName(), bases, new PyStringMap()); } /** * Returns a Python-class that extends {@code cls} and {@code interfce}. If {@code cls} already * extends {@code interfce}, simply {@code cls} is returned. Otherwise a new class is created * (if not yet cached). It caches such classes and only creates a new one if no appropriate * class was cached yet. * * @return a Python-class that extends {@code cls} and {@code interfce} */ public static synchronized PyObject javaPyClass(PyObject cls, Class interfce) { py2JyClassCacheItem cacheItem = (py2JyClassCacheItem) JyAttribute.getAttr(cls, JyAttribute.PYCLASS_PY2JY_CACHE_ATTR); PyObject result; if (cacheItem == null) { result = ensureInterface(cls, interfce); cacheItem = new py2JyClassCacheItem(interfce, result); JyAttribute.setAttr(cls, JyAttribute.PYCLASS_PY2JY_CACHE_ATTR, cacheItem); } else { result = cacheItem.get(interfce); if (result == null) { result = ensureInterface(cls, interfce); cacheItem.add(interfce, result); } } return result; } /** * This method is a compact helper to access Python-constructors from Java. It creates an * instance of {@code cls} and retruns it in form of {@code jcls}, which must be an interface. * This method even works if {@code cls} does not extend {@code jcls} in Python-code. In that * case, it uses {@link #javaPyClass(PyObject, Class)} to create an appropriate class on the * fly. *

* It automatically converts {@code args} to {@link org.python.core.PyObject}s.
* For keyword-support use {@link #newJ(PyObject, Class, String[], Object...)}. * * @see #newJ(PyObject, Class, PyObject[], String[]) * @see #newJ(PyObject, Class, String[], Object...) * @see #newJ(PyModule, Class, Object...) * @see #newJ(PyModule, Class, String[], Object...) * @see PyModule#newJ(Class, Object...) * @see PyModule#newJ(Class, String[], Object...) * * @param cls - the class to be instanciated * @param jcls - the Java-type to be returned * @param args are automatically converted to Jython-PyObjects * @return an instance of cls in form of the interface jcls */ @SuppressWarnings("unchecked") public static T newJ(PyObject cls, Class jcls, Object... args) { PyObject cls2 = javaPyClass(cls, jcls); PyObject resultPy = cls2.__call__(Py.javas2pys(args)); return (T) resultPy.__tojava__(jcls); } /** * This method is a compact helper to access Python-constructors from Java. It creates an * instance of {@code cls} and retruns it in form of {@code jcls}, which must be an interface. * This method even works if {@code cls} does not extend {@code jcls} in Python-code. In that * case, it uses {@link #javaPyClass(PyObject, Class)} to create an appropriate class on the * fly. *

* {@code keywordss} are applied to the last {@code args} in the list. * * @see #newJ(PyObject, Class, Object...) * @see #newJ(PyObject, Class, String[], Object...) * @see #newJ(PyModule, Class, Object...) * @see #newJ(PyModule, Class, String[], Object...) * @see PyModule#newJ(Class, Object...) * @see PyModule#newJ(Class, String[], Object...) * * @param cls - the class to be instanciated * @param jcls - the Java-type to be returned * @param keywords are applied to the last args * @param args for the Python-class constructor * @return an instance of cls in form of the interface jcls */ @SuppressWarnings("unchecked") public static T newJ(PyObject cls, Class jcls, PyObject[] args, String[] keywords) { PyObject cls2 = javaPyClass(cls, jcls); PyObject resultPy = cls2.__call__(args, keywords); return (T) resultPy.__tojava__(jcls); } /** * This method is a compact helper to access Python-constructors from Java. It creates an * instance of {@code cls} and retruns it in form of {@code jcls}, which must be an interface. * This method even works if {@code cls} does not extend {@code jcls} in Python-code. In that * case, it uses {@link #javaPyClass(PyObject, Class)} to create an appropriate class on the * fly. *

* It automatically converts {@code args} to {@link org.python.core.PyObject}s.
* {@code keywordss} are applied to the last {@code args} in the list. * * @see #newJ(PyObject, Class, PyObject[], String[]) * @see #newJ(PyObject, Class, Object...) * @see #newJ(PyModule, Class, Object...) * @see #newJ(PyModule, Class, String[], Object...) * @see PyModule#newJ(Class, Object...) * @see PyModule#newJ(Class, String[], Object...) * * @param cls - the class to be instanciated * @param jcls - the Java-type to be returned * @param keywords are applied to the last args * @param args are automatically converted to Jython-PyObjects * @return an instance of cls in form of the interface jcls */ @SuppressWarnings("unchecked") public static T newJ(PyObject cls, Class jcls, String[] keywords, Object... args) { PyObject cls2 = javaPyClass(cls, jcls); PyObject resultPy = cls2.__call__(Py.javas2pys(args), keywords); return (T) resultPy.__tojava__(jcls); } /** * Works like {@link #newJ(PyObject, Class, Object...)}, but looks up the Python-class in the * module-dict using the interface-name, i.e. {@code jcls.getSimpleName()}. *

* For keywords-support use {@link #newJ(PyModule, Class, String[], Object...)}. * * @see #newJ(PyModule, Class, String[], Object...) * @see #newJ(PyObject, Class, PyObject[], String[]) * @see #newJ(PyObject, Class, Object...) * @see #newJ(PyObject, Class, String[], Object...) * @see PyModule#newJ(Class, Object...) * @see PyModule#newJ(Class, String[], Object...) * * @param module the module containing the desired class * @param jcls Java-type of the desired clas, must have the same name * @param args constructor-arguments * @return a new instance of the desired class */ public static T newJ(PyModule module, Class jcls, Object... args) { PyObject cls = module.__getattr__(jcls.getSimpleName().intern()); return newJ(cls, jcls, args); } /** * Works like {@link #newJ(PyObject, Class, String[], Object...)}, but looks up the Python-class * in the module-dict using the interface-name, i.e. {@code jcls.getSimpleName()}. *

* {@code keywordss} are applied to the last {@code args} in the list. * * @see #newJ(PyModule, Class, Object...) * @see #newJ(PyObject, Class, PyObject[], String[]) * @see #newJ(PyObject, Class, Object...) * @see #newJ(PyObject, Class, String[], Object...) * @see PyModule#newJ(Class, Object...) * @see PyModule#newJ(Class, String[], Object...) * * @param module the module containing the desired class * @param jcls Java-type of the desired class, must have the same name * @param keywords are applied to the last {@code args} in the list * @param args constructor-arguments * @return a new instance of the desired class */ public static T newJ(PyModule module, Class jcls, String[] keywords, Object... args) { PyObject cls = module.__getattr__(jcls.getSimpleName().intern()); return newJ(cls, jcls, keywords, args); } //----------------end of constructor-section------------------ } class FixedFileWrapper extends StdoutWrapper { private PyObject file; public FixedFileWrapper(PyObject file) { name = "fixed file"; this.file = file; if (file.getJavaProxy() != null) { Object tojava = file.__tojava__(OutputStream.class); if (tojava != null && tojava != Py.NoConversion) { this.file = new PyFile((OutputStream) tojava); } } } @Override protected PyObject myFile() { return file; } } /** * A code object wrapper for a python function. */ class JavaCode extends PyCode implements Traverseproc { private PyObject func; public JavaCode(PyObject func) { this.func = func; if (func instanceof PyReflectedFunction) { this.co_name = ((PyReflectedFunction) func).__name__; } } @Override public PyObject call(ThreadState state, PyFrame frame, PyObject closure) { /* This should actually * throw new UnsupportedOperationException( * "JavaCode doesn't support call with signature "+ * "(ThreadState state, PyFrame frame, PyObject closure)."); * However since this would be an API-change, for 2.7 series we just warn. */ Py.warning(Py.RuntimeWarning, "JavaCode doesn't support call with signature "+ "(ThreadState state, PyFrame frame, PyObject closure)."); return Py.None; } @Override public PyObject call(ThreadState state, PyObject args[], String keywords[], PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(args, keywords); } @Override public PyObject call(ThreadState state, PyObject self, PyObject args[], String keywords[], PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(self, args, keywords); } @Override public PyObject call(ThreadState state, PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(); } @Override public PyObject call(ThreadState state, PyObject arg1, PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(arg1); } @Override public PyObject call(ThreadState state, PyObject arg1, PyObject arg2, PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(arg1, arg2); } @Override public PyObject call(ThreadState state, PyObject arg1, PyObject arg2, PyObject arg3, PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(arg1, arg2, arg3); } @Override public PyObject call(ThreadState state, PyObject arg1, PyObject arg2, PyObject arg3, PyObject arg4, PyObject globals, PyObject[] defaults, PyObject closure) { return func.__call__(arg1, arg2, arg3, arg4); } /* Traverseproc implementation */ @Override public int traverse(Visitproc visit, Object arg) { return func != null ? visit.visit(func, arg) : 0; } @Override public boolean refersDirectlyTo(PyObject ob) { return ob != null && ob == func; } } /** * A function object wrapper for a java method that complies with the * PyArgsKeywordsCall standard. */ @Untraversable class JavaFunc extends PyObject { Method method; public JavaFunc(Method method) { this.method = method; } @Override public PyObject __call__(PyObject[] args, String[] kws) { Object[] margs = new Object[]{args, kws}; try { return Py.java2py(method.invoke(null, margs)); } catch (Throwable t) { throw Py.JavaError(t); } } @Override public PyObject _doget(PyObject container) { return _doget(container, null); } @Override public PyObject _doget(PyObject container, PyObject wherefound) { if (container == null) { return this; } return new PyMethod(this, container, wherefound); } public boolean _doset(PyObject container) { throw Py.TypeError("java function not settable: " + method.getName()); } }





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