qse/ase/awk/StdAwk.java

733 lines
15 KiB
Java

/*
* $Id: StdAwk.java,v 1.9 2006-12-03 06:53:25 bacon Exp $
*/
package ase.awk;
import java.io.*;
public abstract class StdAwk extends Awk
{
private InputStreamReader src_in = null;
private OutputStreamWriter src_out = null;
private String[] sin = null;
private int sin_no = 0;
private String sout = null;
private String[] cin = null;
private int cin_no = 0;
private String[] cout = null;
private int cout_no = 0;
private long seed;
private java.util.Random random;
public StdAwk () throws Exception
{
super ();
seed = System.currentTimeMillis();
random = new java.util.Random (seed);
}
/* == major methods == */
public void parse () throws Exception
{
sin = getSourceNames (); sin_no = 0;
sout = getDeparsedSourceName ();
super.parse ();
}
public void run () throws Exception
{
cin = getInputConsoleNames (); cin_no = 0;
cout = getOutputConsoleNames (); cout_no = 0;
super.run ();
}
/* == source code names == */
protected abstract String[] getSourceNames ();
protected String getDeparsedSourceName () { return null; }
/* == console names == */
protected abstract String[] getInputConsoleNames ();
protected abstract String[] getOutputConsoleNames ();
/* == source code == */
protected int openSource (int mode)
{
if (mode == SOURCE_READ)
{
InputStreamReader isr;
sin_no = 0;
if (sin_no >= sin.length) return 0;
isr = get_input_stream (sin[sin_no]);
if (isr == null) return -1;
src_in = isr;
sin_no++;
return 1;
}
else if (mode == SOURCE_WRITE)
{
OutputStreamWriter osw;
if (sout == null) return 1;
osw = get_output_stream (sout);
if (osw == null) return -1;
src_out = osw;
return 1;
}
return -1;
}
protected int closeSource (int mode)
{
if (mode == SOURCE_READ)
{
try { src_in.close (); }
catch (IOException e) { return -1; }
return 0;
}
else if (mode == SOURCE_WRITE)
{
if (src_out == null) return 0;
try { src_out.close (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
protected int readSource (char[] buf, int len)
{
try {
int n = src_in.read (buf, 0, len);
while (n == -1)
{
InputStreamReader isr;
if (sin_no >= sin.length) return 0;
isr = get_input_stream (sin[sin_no]);
if (isr == null) return -1;
try { src_in.close (); }
catch (IOException ec) { /* ignore */ }
src_in = isr;
sin_no++;
n = src_in.read (buf, 0, len);
}
return n;
}
catch (IOException e)
{
return -1;
}
}
protected int writeSource (char[] buf, int len)
{
if (src_out == null) return len;
try { src_out.write (buf, 0, len); }
catch (IOException e) { return -1; }
return len;
}
/* == console interface == */
protected int openConsole (Extio extio)
{
System.err.println ("[open_console called.... name: " + extio.getName() + " mode: " + extio.getMode());
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_READ)
{
InputStreamReader isr;
cin_no = 0;
if (cin_no >= cin.length) return 0;
isr = get_input_stream (cin[cin_no]);
if (isr == null) return -1;
extio.setHandle (isr);
setInputConsoleName (extio, cin[cin_no]);
cin_no++;
return 1;
}
else if (mode == Extio.MODE_CONSOLE_WRITE)
{
OutputStreamWriter osw;
cout_no = 0;
if (cout_no >= cout.length) return 0;
osw = get_output_stream (cout[cout_no]);
if (osw == null) return -1;
extio.setHandle (osw);
setOutputConsoleName (extio, cout[cout_no]);
cout_no++;
return 1;
}
return -1;
}
protected int closeConsole (Extio extio)
{
System.err.println ("[close_console called.... name: " + extio.getName() + " mode: " + extio.getMode());
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_READ)
{
InputStreamReader isr = (InputStreamReader)extio.getHandle ();
try { isr.close (); }
catch (IOException e) { return -1; }
return 0;
}
else if (mode == Extio.MODE_CONSOLE_WRITE)
{
OutputStreamWriter osw = (OutputStreamWriter)extio.getHandle ();
/* TODO: selective close the stream...
* system.out should not be closed??? */
try { osw.close (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
protected int readConsole (Extio extio, char[] buf, int len)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_READ)
{
InputStreamReader isr, tmp;
int n;
isr = (InputStreamReader)extio.getHandle ();
try { n = isr.read (buf, 0, len); }
catch (IOException e) { return -1; }
while (n == -1)
{
if (cin_no >= cin.length) return 0;
tmp = get_input_stream (cin[cin_no]);
if (tmp == null) return -1;
try { isr.close (); }
catch (IOException e) { /* ignore */ }
extio.setHandle (tmp);
setInputConsoleName (extio, cin[cin_no]);
isr = (InputStreamReader)extio.getHandle ();
cin_no++;
try { n = isr.read (buf, 0, len); }
catch (IOException e) { return -1; }
}
return n;
}
return -1;
}
protected int writeConsole (Extio extio, char[] buf, int len)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle ();
// as the write operation below doesn't indicate
// if it has reached the end, console can't be
// switched here unlike read_console.
try { osw.write (buf, 0, len); osw.flush (); }
catch (IOException e) { return -1; }
return len;
}
return -1;
}
protected int flushConsole (Extio extio)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle ();
try { osw.flush (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
protected int nextConsole (Extio extio)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_CONSOLE_READ)
{
InputStreamReader isr, tmp;
isr = (InputStreamReader)extio.getHandle ();
if (cin_no >= cin.length) return 0;
tmp = get_input_stream (cin[cin_no]);
if (tmp == null) return -1;
try { isr.close (); }
catch (IOException e) { /* ignore */ }
extio.setHandle (tmp);
setInputConsoleName (extio, cin[cin_no]);
cin_no++;
return 1;
}
else if (mode == Extio.MODE_CONSOLE_WRITE)
{
OutputStreamWriter osw, tmp;
osw = (OutputStreamWriter)extio.getHandle ();
if (cout_no >= cout.length) return 0;
tmp = get_output_stream (cout[cout_no]);
if (tmp == null) return -1;
/* TODO: selectively close the stream...
* system.out should not be closed??? */
try { osw.close (); }
catch (IOException e) { /* ignore */ }
extio.setHandle (tmp);
setOutputConsoleName (extio, cout[cout_no]);
cout_no++;
return 1;
}
return -1;
}
private InputStreamReader get_input_stream (String name)
{
InputStreamReader isr;
if (name == null || name.length() == 0)
{
isr = new InputStreamReader (System.in);
}
else
{
FileInputStream fis;
try { fis = new FileInputStream (name); }
catch (IOException e) { return null; }
isr = new InputStreamReader (fis);
}
return isr;
}
private OutputStreamWriter get_output_stream (String name)
{
OutputStreamWriter osw;
if (name == null || name.length() == 0)
{
osw = new OutputStreamWriter (System.out);
}
else
{
FileOutputStream fos;
try { fos = new FileOutputStream (name); }
catch (IOException e) { return null; }
osw = new OutputStreamWriter (fos);
}
return osw;
}
/* == file interface == */
protected int openFile (Extio extio)
{
int mode = extio.getMode();
if (mode == Extio.MODE_FILE_READ)
{
FileInputStream fis;
InputStreamReader isr;
try { fis = new FileInputStream (extio.getName()); }
catch (IOException e) { return -1; }
isr = new InputStreamReader (fis);
extio.setHandle (isr);
return 1;
}
else if (mode == Extio.MODE_FILE_WRITE)
{
FileOutputStream fos;
OutputStreamWriter osw;
try { fos = new FileOutputStream (extio.getName()); }
catch (IOException e) { return -1; }
osw = new OutputStreamWriter (fos);
extio.setHandle (osw);
return 1;
}
else if (mode == Extio.MODE_FILE_APPEND)
{
FileOutputStream fos;
OutputStreamWriter osw;
try { fos = new FileOutputStream (extio.getName(), true); }
catch (IOException e) { return -1; }
osw = new OutputStreamWriter (fos);
extio.setHandle (osw);
return 1;
}
return -1;
}
protected int closeFile (Extio extio)
{
int mode = extio.getMode();
if (mode == Extio.MODE_FILE_READ)
{
InputStreamReader isr;
isr = (InputStreamReader)extio.getHandle();
try { isr.close (); }
catch (IOException e) { return -1; }
return 0;
}
else if (mode == Extio.MODE_FILE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle();
try { osw.close (); }
catch (IOException e) { return -1; }
return 0;
}
else if (mode == Extio.MODE_FILE_APPEND)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle();
try { osw.close (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
protected int readFile (Extio extio, char[] buf, int len)
{
int mode = extio.getMode();
if (mode == Extio.MODE_FILE_READ)
{
InputStreamReader isr;
isr = (InputStreamReader)extio.getHandle();
try
{
len = isr.read (buf, 0, len);
if (len == -1) len = 0;
}
catch (IOException e) { len = -1; }
return len;
}
return -1;
}
protected int writeFile (Extio extio, char[] buf, int len)
{
int mode = extio.getMode();
if (mode == Extio.MODE_FILE_WRITE ||
mode == Extio.MODE_FILE_APPEND)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle();
try { osw.write (buf, 0, len); }
catch (IOException e) { len = -1; }
return len;
}
return -1;
}
protected int flushFile (Extio extio)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_FILE_WRITE ||
mode == Extio.MODE_FILE_APPEND)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle ();
try { osw.flush (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
/* == pipe interface == */
protected int openPipe (Extio extio)
{
int mode = extio.getMode();
if (mode == Extio.MODE_PIPE_READ)
{
Process proc;
InputStreamReader isr;
try { proc = popen (extio.getName()); }
catch (IOException e) { return -1; }
isr = new InputStreamReader (proc.getInputStream());
extio.setHandle (isr);
return 1;
}
else if (mode == Extio.MODE_PIPE_WRITE)
{
Process proc;
OutputStreamWriter osw;
try { proc = popen (extio.getName()); }
catch (IOException e) { return -1; }
osw = new OutputStreamWriter (proc.getOutputStream());
extio.setHandle (osw);
return 1;
}
return -1;
}
protected int closePipe (Extio extio)
{
int mode = extio.getMode();
if (mode == Extio.MODE_PIPE_READ)
{
InputStreamReader isr;
isr = (InputStreamReader)extio.getHandle();
try { isr.close (); }
catch (IOException e) { return -1; }
return 0;
}
else if (mode == Extio.MODE_PIPE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle();
try { osw.close (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
protected int readPipe (Extio extio, char[] buf, int len)
{
int mode = extio.getMode();
if (mode == Extio.MODE_PIPE_READ)
{
InputStreamReader isr;
isr = (InputStreamReader)extio.getHandle();
try
{
len = isr.read (buf, 0, len);
if (len == -1) len = 0;
}
catch (IOException e) { len = -1; }
return len;
}
return -1;
}
protected int writePipe (Extio extio, char[] buf, int len)
{
int mode = extio.getMode();
if (mode == Extio.MODE_PIPE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle();
try { osw.write (buf, 0, len); }
catch (IOException e) { len = -1; }
return len;
}
return -1;
}
protected int flushPipe (Extio extio)
{
int mode = extio.getMode ();
if (mode == Extio.MODE_PIPE_WRITE)
{
OutputStreamWriter osw;
osw = (OutputStreamWriter)extio.getHandle ();
try { osw.flush (); }
catch (IOException e) { return -1; }
return 0;
}
return -1;
}
/* == arithmetic built-in functions */
public Object sin (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.sin(x));
}
public Object cos (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.cos(x));
}
public Object tan (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.tan(x));
}
public Object atan2 (long runid, Object[] args)
{
double y = builtinFunctionArgumentToDouble (runid, args[0]);
double x = builtinFunctionArgumentToDouble (runid, args[1]);
return new Double (Math.atan2(y,x));
}
public Object log (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.log(x));
}
public Object exp (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.exp(x));
}
public Object sqrt (long runid, Object[] args)
{
double x = builtinFunctionArgumentToDouble (runid, args[0]);
return new Double (Math.sqrt(x));
}
public Object rand (long runid, Object[] args)
{
return new Double (random.nextDouble ());
}
public Object srand (long runid, Object[] args)
{
long prev_seed = seed;
seed = (args == null || args.length == 0)?
System.currentTimeMillis ():
builtinFunctionArgumentToLong (runid, args[0]);
random.setSeed (seed);
return new Long (prev_seed);
}
/* miscellaneous built-in functions */
public Object system (long runid, Object[] args)
{
String str = builtinFunctionArgumentToString (runid, args[0]);
Process proc = null;
int n = 0;
str = builtinFunctionArgumentToString (runid, args[0]);
try { proc = popen (str); }
catch (IOException e) { n = -1; }
if (proc != null)
{
InputStream is;
byte[] buf = new byte[1024];
is = proc.getInputStream();
// TODO; better error handling... program execution.. io redirection???
try { while (is.read (buf) != -1) ; }
catch (IOException e) { n = -1; };
try { n = proc.waitFor (); }
catch (InterruptedException e)
{
proc.destroy ();
n = -1;
}
}
return new Long (n);
}
/* == utility functions == */
private Process popen (String command) throws IOException
{
String full;
/* TODO: consider OS names and versions */
full = System.getenv ("ComSpec");
if (full != null)
{
full = full + " /c " + command;
}
else
{
full = System.getenv ("SHELL");
if (full != null)
{
full = "/bin/sh -c \"" + command + "\"";
}
else full = command;
}
return Runtime.getRuntime().exec (full);
}
}