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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.
/*
* Copyright 1998 Finn Bock.
*
* This program contains material copyrighted by:
* Copyright (c) 1991-1995 by Stichting Mathematisch Centrum, Amsterdam,
* The Netherlands.
*/
// cStringIO with StringBuilder semantics - don't use without using external
// synchronization. Java does provide other alternatives.
package org.python.modules;
import org.python.core.Py;
import org.python.core.PyArray;
import org.python.core.PyIterator;
import org.python.core.PyList;
import org.python.core.PyObject;
import org.python.core.PyString;
import org.python.core.PyType;
/**
* This module implements a file-like class, StringIO, that reads and
* writes a string buffer (also known as memory files).
* See the description on file objects for operations.
* @author Finn Bock, [email protected]
* @version cStringIO.java,v 1.10 1999/05/20 18:03:20 fb Exp
*/
public class cStringIO {
// would be nicer if we directly imported from os, but crazy to do so
// since in python code itself
private static class os {
public static final int SEEK_SET = 0;
public static final int SEEK_CUR = 1;
public static final int SEEK_END = 2;
}
public static PyType InputType = PyType.fromClass(StringIO.class);
public static PyType OutputType = PyType.fromClass(StringIO.class);
public static StringIO StringIO() {
return new StringIO();
}
/**
* Create a StringIO object, initialized by the value.
* @param buffer The initial value.
* @return a new StringIO object.
*/
public static StringIO StringIO(String buffer) {
return new StringIO(buffer);
}
/**
* Create a StringIO object, initialized by an array's byte stream.
* @param array The initial value, from an array.
* @return a new StringIO object.
*/
public static StringIO StringIO(PyArray array) {
return new StringIO(array);
}
/**
* The StringIO object
* @see cStringIO#StringIO()
* @see cStringIO#StringIO(String)
*/
public static class StringIO extends PyIterator {
public boolean softspace = false;
public boolean closed = false;
public int pos = 0;
private final StringBuilder buf;
public StringIO() {
buf = new StringBuilder();
}
public StringIO(String buffer) {
buf = new StringBuilder(buffer);
}
public StringIO(PyArray array) {
buf = new StringBuilder(array.tostring());
}
private void _complain_ifclosed() {
if (closed)
throw Py.ValueError("I/O operation on closed file");
}
private int _convert_to_int(long val) {
if (val > Integer.MAX_VALUE) {
throw Py.OverflowError("long int too large to convert to int");
}
return (int)val;
}
public void __setattr__(String name, PyObject value) {
if (name == "softspace") {
softspace = value.__nonzero__();
return;
}
super.__setattr__(name, value);
}
public PyObject __iternext__() {
_complain_ifclosed();
PyString r = readline();
if (r.__len__() == 0)
return null;
return r;
}
/**
* Free the memory buffer.
*/
public void close() {
closed = true;
// No point in zeroing the buf, because it won't be reused.
// buf is a final variable, so can't set to null.
// Therefore, just leave it and let it be GC'ed when the enclosing object is GC'ed
// Or remove the final declaration
// buf = null;
}
/**
* Return false.
* @return false.
*/
public boolean isatty() {
_complain_ifclosed();
return false;
}
/**
* Position the file pointer to the absolute position.
* @param pos the position in the file.
*/
public void seek(long pos) {
seek(pos, os.SEEK_SET);
}
/**
* Position the file pointer to the position in the .
*
* @param pos
* the position in the file.
* @param mode
* 0=from the start, 1=relative, 2=from the end.
*/
public synchronized void seek(long pos, int mode) {
_complain_ifclosed();
switch (mode) {
case os.SEEK_CUR:
this.pos += pos;
break;
case os.SEEK_END:
this.pos = _convert_to_int(pos + buf.length());
break;
case os.SEEK_SET:
default:
this.pos = _convert_to_int(pos);
break;
}
}
/**
* Reset the file position to the beginning of the file.
*/
public synchronized void reset() {
pos = 0;
}
/**
* Return the file position.
* @return the position in the file.
*/
public synchronized int tell() {
_complain_ifclosed();
return pos;
}
/**
* Read all data until EOF is reached.
* An empty string is returned when EOF is encountered immediately.
* @return A string containing the data.
*/
public PyString read() {
return read(-1);
}
/**
* Read at most size bytes from the file (less if the read hits EOF).
* If the size argument is negative, read all data until EOF is
* reached. An empty string is returned when EOF is encountered
* immediately.
* @param size the number of characters to read.
* @return A string containing the data read.
*/
public synchronized PyString read(long size) {
_complain_ifclosed();
_convert_to_int(size);
int len = buf.length();
String substr;
if (size < 0) {
substr = pos >= len ? "" : buf.substring(pos);
pos = len;
} else {
// ensure no overflow
int newpos = _convert_to_int(Math.min(pos + size, len));
substr = buf.substring(pos, newpos);
pos = newpos;
}
return new PyString(substr);
}
/**
* Read one entire line from the file. A trailing newline character
* is kept in the string (but may be absent when a file ends with
* an incomplete line).
* An empty string is returned when EOF is hit immediately.
* @return data from the file up to and including the newline.
*/
public PyString readline() {
return readline(-1);
}
/**
* Read one entire line from the file. A trailing newline character
* is kept in the string (but may be absent when a file ends with an
* incomplete line).
* If the size argument is non-negative, it is a maximum byte count
* (including the trailing newline) and an incomplete line may be
* returned.
* @return data from the file up to and including the newline.
*/
public synchronized PyString readline(long size) {
_complain_ifclosed();
_convert_to_int(size);
int len = buf.length();
if (pos == len) {
return new PyString("");
}
int i = buf.indexOf("\n", pos);
int newpos = (i < 0) ? len : i + 1;
if (size >= 0) {
newpos = _convert_to_int(Math.min(newpos - pos, size) + pos);
}
String r = buf.substring(pos, newpos);
pos = newpos;
return new PyString(r);
}
/**
* Read and return a line without the trailing newline.
* Usind by cPickle as an optimization.
*/
public synchronized PyString readlineNoNl() {
_complain_ifclosed();
int len = buf.length();
int i = buf.indexOf("\n", pos);
int newpos = (i < 0) ? len : i;
String r = buf.substring(pos, newpos);
pos = newpos;
if (pos < len) // Skip the newline
pos++;
return new PyString(r);
}
/**
* Read until EOF using readline() and return a list containing
* the lines thus read.
* @return a list of the lines.
*/
public PyObject readlines() {
return readlines(0);
}
/**
* Read until EOF using readline() and return a list containing
* the lines thus read.
* @return a list of the lines.
*/
public PyObject readlines(long sizehint) {
_complain_ifclosed();
int sizehint_int = (int)sizehint;
int total = 0;
PyList lines = new PyList();
PyString line = readline();
while (line.__len__() > 0) {
lines.append(line);
total += line.__len__();
if (0 < sizehint_int && sizehint_int <= total)
break;
line = readline();
}
return lines;
}
/**
* truncate the file at the current position.
*/
public synchronized void truncate() {
buf.setLength(this.pos);
}
/**
* truncate the file at the position pos.
*/
public synchronized void truncate(long pos) {
if (pos < 0) {
throw Py.IOError("Negative size not allowed");
}
int pos_int = _convert_to_int(pos);
if (pos_int < 0)
pos_int = this.pos;
buf.setLength(pos_int);
this.pos = pos_int;
}
/**
* Write a string to the file.
* @param obj The data to write.
*/
public void write(PyObject obj) {
write(obj.toString());
}
public synchronized void write(String s) {
_complain_ifclosed();
int spos = pos;
int slen = buf.length();
if (spos == slen) {
buf.append(s);
buf.setLength(slen + s.length());
pos = spos + s.length();
return;
}
if (spos > slen) {
int l = spos - slen;
char[] bytes = new char[l];
for (int i = 0; i < l - 1; i++)
bytes[i] = '\0';
buf.append(bytes);
slen = spos;
}
int newpos = spos + s.length();
if (spos < slen) {
if (newpos > slen) {
buf.replace(spos, slen, s);
buf.append(s.substring(slen - spos));
slen = newpos;
} else {
buf.replace(spos, spos + s.length(), s);
}
} else {
buf.append(s);
slen = newpos;
}
buf.setLength(slen);
pos = newpos;
}
/**
* Write a char to the file. Used by cPickle as an optimization.
* @param ch The data to write.
*/
public synchronized void writeChar(char ch) {
int len = buf.length();
if (len <= pos)
buf.setLength(pos + 1);
buf.setCharAt(pos++, ch);
}
/**
* Write a list of strings to the file.
*/
public void writelines(PyObject lines) {
for (PyObject line : lines.asIterable()) {
write(line);
}
}
/**
* Flush the internal buffer. Does nothing.
*/
public void flush() {
_complain_ifclosed();
}
/**
* Retrieve the entire contents of the ``file'' at any time
* before the StringIO object's close() method is called.
* @return the contents of the StringIO.
*/
public synchronized PyString getvalue() {
_complain_ifclosed();
return new PyString(buf.toString());
}
}
private static String[] strings = new String[256];
static String getString(char ch) {
if (ch > 255) {
return new String(new char[] { ch });
}
String s = strings[ch];
if (s == null) {
s = new String(new char[] { ch });
strings[ch] = s;
}
return s;
}
}