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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 (c) Corporation for National Research Initiatives
package org.python.compiler;
import java.io.IOException;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.List;
import org.objectweb.asm.Label;
import org.objectweb.asm.Opcodes;
import org.python.antlr.ast.Num;
import org.python.core.CodeBootstrap;
import org.python.core.CodeFlag;
import org.python.core.CodeLoader;
import org.python.core.CompilerFlags;
import org.python.core.ThreadState;
import org.python.core.Py;
import org.python.core.PyCode;
import org.python.core.PyComplex;
import org.python.core.PyException;
import org.python.core.PyFloat;
import org.python.core.PyFrame;
import org.python.core.PyFunctionTable;
import org.python.core.PyInteger;
import org.python.core.PyLong;
import org.python.core.PyObject;
import org.python.core.PyRunnable;
import org.python.core.PyRunnableBootstrap;
import org.python.core.PyString;
import org.python.core.PyUnicode;
import org.objectweb.asm.Type;
import org.python.antlr.ParseException;
import org.python.antlr.PythonTree;
import org.python.antlr.ast.Str;
import org.python.antlr.ast.Suite;
import org.python.antlr.base.mod;
import static org.python.util.CodegenUtils.*;
class PyIntegerConstant extends Constant implements ClassConstants, Opcodes {
final int value;
PyIntegerConstant(int value) {
this.value = value;
}
void get(Code c) throws IOException {
c.iconst(value); // it would be nice if we knew we didn't have to box next
c.invokestatic(p(Py.class), "newInteger", sig(PyInteger.class, Integer.TYPE));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return value;
}
@Override
public boolean equals(Object o) {
if (o instanceof PyIntegerConstant) {
return ((PyIntegerConstant) o).value == value;
} else {
return false;
}
}
}
class PyFloatConstant extends Constant implements ClassConstants, Opcodes {
private static final double ZERO = 0.0;
final double value;
PyFloatConstant(double value) {
this.value = value;
}
void get(Code c) throws IOException {
c.ldc(new Double(value));
c.invokestatic(p(Py.class), "newFloat", sig(PyFloat.class, Double.TYPE));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return (int) value;
}
@Override
public boolean equals(Object o) {
if (o instanceof PyFloatConstant) {
double oVal = ((PyFloatConstant)o).value;
if (ZERO == value) {
// math.copysign() needs to distinguish signs of zeroes
return oVal == value && Double.toString(oVal).equals(Double.toString(value));
}
return oVal == value;
}
return false;
}
}
class PyComplexConstant extends Constant implements ClassConstants, Opcodes {
final double value;
PyComplexConstant(double value) {
this.value = value;
}
void get(Code c) throws IOException {
c.ldc(new Double(value));
c.invokestatic(p(Py.class), "newImaginary", sig(PyComplex.class, Double.TYPE));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return (int) value;
}
@Override
public boolean equals(Object o) {
if (o instanceof PyComplexConstant) {
return ((PyComplexConstant) o).value == value;
} else {
return false;
}
}
}
class PyStringConstant extends Constant implements ClassConstants, Opcodes {
final String value;
PyStringConstant(String value) {
this.value = value;
}
void get(Code c) throws IOException {
c.ldc(value);
c.invokestatic(p(PyString.class), "fromInterned", sig(PyString.class, String.class));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return value.hashCode();
}
@Override
public boolean equals(Object o) {
if (o instanceof PyStringConstant) {
return ((PyStringConstant) o).value.equals(value);
} else {
return false;
}
}
}
class PyUnicodeConstant extends Constant implements ClassConstants, Opcodes {
final String value;
PyUnicodeConstant(String value) {
this.value = value;
}
void get(Code c) throws IOException {
c.ldc(value);
c.invokestatic(p(PyUnicode.class), "fromInterned", sig(PyUnicode.class, String.class));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return value.hashCode();
}
@Override
public boolean equals(Object o) {
if (o instanceof PyUnicodeConstant) {
return ((PyUnicodeConstant) o).value.equals(value);
} else {
return false;
}
}
}
class PyLongConstant extends Constant implements ClassConstants, Opcodes {
final String value;
PyLongConstant(String value) {
this.value = value;
}
void get(Code c) throws IOException {
c.ldc(value);
c.invokestatic(p(Py.class), "newLong", sig(PyLong.class, String.class));
}
void put(Code c) throws IOException {
}
@Override
public int hashCode() {
return value.hashCode();
}
@Override
public boolean equals(Object o) {
if (o instanceof PyLongConstant) {
return ((PyLongConstant) o).value.equals(value);
} else {
return false;
}
}
}
class PyCodeConstant extends Constant implements ClassConstants, Opcodes {
final String co_name;
final int argcount;
final List names;
final int id;
final int co_firstlineno;
final boolean arglist, keywordlist;
final String fname;
// for nested scopes
final List cellvars;
final List freevars;
final int jy_npurecell;
final int moreflags;
PyCodeConstant(mod tree, String name, boolean fast_locals, String className, boolean classBody,
boolean printResults, int firstlineno, ScopeInfo scope, CompilerFlags cflags,
Module module)
throws Exception {
this.co_name = name;
this.co_firstlineno = firstlineno;
this.module = module;
//Needed so that moreflags can be final.
int _moreflags = 0;
if (scope.ac != null) {
arglist = scope.ac.arglist;
keywordlist = scope.ac.keywordlist;
argcount = scope.ac.names.size();
//Do something to add init_code to tree
//XXX: not sure we should be modifying scope.ac in a PyCodeConstant
//constructor.
if (scope.ac.init_code.size() > 0) {
scope.ac.appendInitCode((Suite) tree);
}
} else {
arglist = false;
keywordlist = false;
argcount = 0;
}
id = module.codes.size();
//Better names in the future?
if (isJavaIdentifier(name)) {
fname = name + "$" + id;
} else {
fname = "f$" + id;
}
//XXX: is fname needed at all, or should we just use "name"?
this.name = fname;
// !classdef only
if (!classBody) {
names = toNameAr(scope.names, false);
} else {
names = null;
}
cellvars = toNameAr(scope.cellvars, true);
freevars = toNameAr(scope.freevars, true);
jy_npurecell = scope.jy_npurecell;
if (CodeCompiler.checkOptimizeGlobals(fast_locals, scope)) {
_moreflags |= org.python.core.CodeFlag.CO_OPTIMIZED.flag;
}
if (scope.generator) {
_moreflags |= org.python.core.CodeFlag.CO_GENERATOR.flag;
}
if (cflags != null) {
if (cflags.isFlagSet(CodeFlag.CO_GENERATOR_ALLOWED)) {
_moreflags |= org.python.core.CodeFlag.CO_GENERATOR_ALLOWED.flag;
}
if (cflags.isFlagSet(CodeFlag.CO_FUTURE_DIVISION)) {
_moreflags |= org.python.core.CodeFlag.CO_FUTURE_DIVISION.flag;
}
}
moreflags = _moreflags;
}
//XXX: this can probably go away now that we can probably just copy the list.
private List toNameAr(List names, boolean nullok) {
int sz = names.size();
if (sz == 0 && nullok) {
return null;
}
List nameArray = new ArrayList();
nameArray.addAll(names);
return nameArray;
}
private boolean isJavaIdentifier(String s) {
char[] chars = s.toCharArray();
if (chars.length == 0) {
return false;
}
if (!Character.isJavaIdentifierStart(chars[0])) {
return false;
}
for (int i = 1; i < chars.length; i++) {
if (!Character.isJavaIdentifierPart(chars[i])) {
return false;
}
}
return true;
}
void get(Code c) throws IOException {
c.getstatic(module.classfile.name, name, ci(PyCode.class));
}
void put(Code c) throws IOException {
module.classfile.addField(name, ci(PyCode.class), access);
c.iconst(argcount);
//Make all names
int nameArray;
if (names != null) {
nameArray = CodeCompiler.makeStrings(c, names);
} else { // classdef
nameArray = CodeCompiler.makeStrings(c, null);
}
c.aload(nameArray);
c.freeLocal(nameArray);
c.aload(1);
c.ldc(co_name);
c.iconst(co_firstlineno);
c.iconst(arglist ? 1 : 0);
c.iconst(keywordlist ? 1 : 0);
c.getstatic(module.classfile.name, "self", "L" + module.classfile.name + ";");
c.iconst(id);
if (cellvars != null) {
int strArray = CodeCompiler.makeStrings(c, cellvars);
c.aload(strArray);
c.freeLocal(strArray);
} else {
c.aconst_null();
}
if (freevars != null) {
int strArray = CodeCompiler.makeStrings(c, freevars);
c.aload(strArray);
c.freeLocal(strArray);
} else {
c.aconst_null();
}
c.iconst(jy_npurecell);
c.iconst(moreflags);
c.invokestatic(p(Py.class), "newCode", sig(PyCode.class, Integer.TYPE,
String[].class, String.class, String.class, Integer.TYPE, Boolean.TYPE,
Boolean.TYPE, PyFunctionTable.class, Integer.TYPE, String[].class,
String[].class, Integer.TYPE, Integer.TYPE));
c.putstatic(module.classfile.name, name, ci(PyCode.class));
}
}
public class Module implements Opcodes, ClassConstants, CompilationContext {
ClassFile classfile;
Constant filename;
String sfilename;
Constant mainCode;
boolean linenumbers;
Future futures;
Hashtable scopes;
List codes;
long mtime;
private int setter_count = 0;
private final static int USE_SETTERS_LIMIT = 100;
private final static int MAX_SETTINGS_PER_SETTER = 4096;
/** The pool of Python Constants */
Hashtable constants;
public Module(String name, String filename, boolean linenumbers) {
this(name, filename, linenumbers, org.python.core.imp.NO_MTIME);
}
public Module(String name, String filename, boolean linenumbers, long mtime) {
this.linenumbers = linenumbers;
this.mtime = mtime;
classfile = new ClassFile(name, p(PyFunctionTable.class),
ACC_SYNCHRONIZED | ACC_PUBLIC, mtime);
constants = new Hashtable();
sfilename = filename;
if (filename != null) {
this.filename = stringConstant(filename);
} else {
this.filename = null;
}
codes = new ArrayList();
futures = new Future();
scopes = new Hashtable();
}
public Module(String name) {
this(name, name + ".py", true, org.python.core.imp.NO_MTIME);
}
private Constant findConstant(Constant c) {
Constant ret = constants.get(c);
if (ret != null) {
return ret;
}
ret = c;
c.module = this;
//More sophisticated name mappings might be nice
c.name = "_" + constants.size();
constants.put(ret, ret);
return ret;
}
Constant integerConstant(int value) {
return findConstant(new PyIntegerConstant(value));
}
Constant floatConstant(double value) {
return findConstant(new PyFloatConstant(value));
}
Constant complexConstant(double value) {
return findConstant(new PyComplexConstant(value));
}
Constant stringConstant(String value) {
return findConstant(new PyStringConstant(value));
}
Constant unicodeConstant(String value) {
return findConstant(new PyUnicodeConstant(value));
}
Constant longConstant(String value) {
return findConstant(new PyLongConstant(value));
}
PyCodeConstant codeConstant(mod tree, String name, boolean fast_locals, String className,
boolean classBody, boolean printResults, int firstlineno,
ScopeInfo scope, CompilerFlags cflags) throws Exception {
return codeConstant(tree, name, fast_locals, className, null, classBody, printResults,
firstlineno, scope, cflags);
}
PyCodeConstant codeConstant(mod tree, String name, boolean fast_locals, String className,
Str classDoc, boolean classBody, boolean printResults,
int firstlineno, ScopeInfo scope, CompilerFlags cflags)
throws Exception {
PyCodeConstant code = new PyCodeConstant(tree, name, fast_locals,
className, classBody, printResults, firstlineno, scope, cflags,
this);
codes.add(code);
CodeCompiler compiler = new CodeCompiler(this, printResults);
Code c = classfile.addMethod(
code.fname,
sig(PyObject.class, PyFrame.class, ThreadState.class),
ACC_PUBLIC);
compiler.parse(tree, c, fast_locals, className, classDoc, classBody, scope, cflags);
return code;
}
/** This block of code writes out the various standard methods */
public void addInit() throws IOException {
Code c = classfile.addMethod("", sig(Void.TYPE, String.class), ACC_PUBLIC);
c.aload(0);
c.invokespecial(p(PyFunctionTable.class), "", sig(Void.TYPE));
addConstants(c);
}
public void addRunnable() throws IOException {
Code c = classfile.addMethod("getMain", sig(PyCode.class), ACC_PUBLIC);
mainCode.get(c);
c.areturn();
}
public void addMain() throws IOException {
Code c = classfile.addMethod("main", sig(Void.TYPE, String[].class),
ACC_PUBLIC | ACC_STATIC);
c.new_(classfile.name);
c.dup();
c.ldc(classfile.name);
c.invokespecial(classfile.name, "", sig(Void.TYPE, String.class));
c.invokevirtual(classfile.name, "getMain", sig(PyCode.class));
c.invokestatic(p(CodeLoader.class), CodeLoader.SIMPLE_FACTORY_METHOD_NAME,
sig(CodeBootstrap.class, PyCode.class));
c.aload(0);
c.invokestatic(p(Py.class), "runMain", sig(Void.TYPE, CodeBootstrap.class, String[].class));
c.return_();
}
public void addBootstrap() throws IOException {
Code c = classfile.addMethod(CodeLoader.GET_BOOTSTRAP_METHOD_NAME, sig(CodeBootstrap.class),
ACC_PUBLIC | ACC_STATIC);
c.ldc(Type.getType("L" + classfile.name + ";"));
c.invokestatic(p(PyRunnableBootstrap.class), PyRunnableBootstrap.REFLECTION_METHOD_NAME,
sig(CodeBootstrap.class, Class.class));
c.areturn();
}
void addConstants(Code c) throws IOException {
classfile.addField("self", "L" + classfile.name + ";", ACC_STATIC);
c.aload(0);
c.putstatic(classfile.name, "self", "L" + classfile.name + ";");
Enumeration e = constants.elements();
while (e.hasMoreElements()) {
Constant constant = (Constant) e.nextElement();
constant.put(c);
}
for (int i = 0; i < codes.size(); i++) {
PyCodeConstant pyc = codes.get(i);
pyc.put(c);
}
c.return_();
}
public void addFunctions() throws IOException {
Code code = classfile.addMethod("call_function",
sig(PyObject.class, Integer.TYPE, PyFrame.class, ThreadState.class), ACC_PUBLIC);
code.aload(0); // this
code.aload(2); // frame
code.aload(3); // thread state
Label def = new Label();
Label[] labels = new Label[codes.size()];
int i;
for (i = 0; i < labels.length; i++) {
labels[i] = new Label();
}
//Get index for function to call
code.iload(1);
code.tableswitch(0, labels.length - 1, def, labels);
for (i = 0; i < labels.length; i++) {
code.label(labels[i]);
code.invokevirtual(classfile.name, (codes.get(i)).fname, sig(PyObject.class,
PyFrame.class, ThreadState.class));
code.areturn();
}
code.label(def);
//Should probably throw internal exception here
code.aconst_null();
code.areturn();
}
public void write(OutputStream stream) throws IOException {
addInit();
addRunnable();
addMain();
addBootstrap();
addFunctions();
classfile.addInterface(p(PyRunnable.class));
if (sfilename != null) {
classfile.setSource(sfilename);
}
classfile.write(stream);
}
// Implementation of CompilationContext
public Future getFutures() {
return futures;
}
public String getFilename() {
return sfilename;
}
public ScopeInfo getScopeInfo(PythonTree node) {
return scopes.get(node);
}
public void error(String msg, boolean err, PythonTree node)
throws Exception {
if (!err) {
try {
Py.warning(Py.SyntaxWarning, msg, (sfilename != null) ? sfilename : "?",
node.getLine(), null, Py.None);
return;
} catch (PyException e) {
if (!e.match(Py.SyntaxWarning)) {
throw e;
}
}
}
throw new ParseException(msg, node);
}
public static void compile(mod node, OutputStream ostream, String name, String filename,
boolean linenumbers, boolean printResults, CompilerFlags cflags)
throws Exception {
compile(node, ostream, name, filename, linenumbers, printResults, cflags,
org.python.core.imp.NO_MTIME);
}
public static void compile(mod node, OutputStream ostream, String name, String filename,
boolean linenumbers, boolean printResults, CompilerFlags cflags, long mtime)
throws Exception {
Module module = new Module(name, filename, linenumbers, mtime);
if (cflags == null) {
cflags = new CompilerFlags();
}
module.futures.preprocessFutures(node, cflags);
new ScopesCompiler(module, module.scopes).parse(node);
//Add __doc__ if it exists
Constant main = module.codeConstant(node, "", false, null, false,
printResults, 0,
module.getScopeInfo(node),
cflags);
module.mainCode = main;
module.write(ostream);
}
public void emitNum(Num node, Code code) throws Exception {
if (node.getInternalN() instanceof PyInteger) {
integerConstant(((PyInteger) node.getInternalN()).getValue()).get(code);
} else if (node.getInternalN() instanceof PyLong) {
longConstant(((PyObject) node.getInternalN()).__str__().toString()).get(code);
} else if (node.getInternalN() instanceof PyFloat) {
floatConstant(((PyFloat) node.getInternalN()).getValue()).get(code);
} else if (node.getInternalN() instanceof PyComplex) {
complexConstant(((PyComplex) node.getInternalN()).imag).get(code);
}
}
public void emitStr(Str node, Code code) throws Exception {
PyString s = (PyString) node.getInternalS();
if (s instanceof PyUnicode) {
unicodeConstant(s.asString()).get(code);
} else {
stringConstant(s.asString()).get(code);
}
}
public boolean emitPrimitiveArraySetters(java.util.List extends PythonTree> nodes, Code code) throws Exception {
final int n = nodes.size();
if (n < USE_SETTERS_LIMIT) {
return false; // Too small to matter, so bail
}
// Only attempt if all nodes are either Num or Str, otherwise bail
boolean primitive_literals = true;
for (int i = 0; i < n; i++) {
PythonTree node = nodes.get(i);
if (!(node instanceof Num || node instanceof Str)) {
primitive_literals = false;
}
}
if (!primitive_literals) {
return false;
}
final int num_setters = (n / MAX_SETTINGS_PER_SETTER) + 1;
code.iconst(n);
code.anewarray(p(PyObject.class));
for (int i = 0; i < num_setters; i++) {
Code setter = this.classfile.addMethod(
"set$$" + setter_count, sig(Void.TYPE, PyObject[].class), ACC_STATIC | ACC_PRIVATE);
for (int j = 0; (j < MAX_SETTINGS_PER_SETTER) && ((i * MAX_SETTINGS_PER_SETTER + j) < n); j++) {
setter.aload(0);
setter.iconst(i * MAX_SETTINGS_PER_SETTER + j);
PythonTree node = nodes.get(i * MAX_SETTINGS_PER_SETTER + j);
if (node instanceof Num) {
emitNum((Num)node, setter);
}
else if (node instanceof Str) {
emitStr((Str)node, setter);
}
setter.aastore();
}
setter.return_();
code.dup();
code.invokestatic(
this.classfile.name, "set$$" + setter_count, sig(Void.TYPE, PyObject[].class));
setter_count++;
}
return true;
}
}