src.org.python.modules.jffi.JITRuntime Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jython Show documentation
Show all versions of jython Show documentation
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.
package org.python.modules.jffi;
import org.python.core.Py;
import org.python.core.PyObject;
import java.math.BigInteger;
/**
*
*/
public final class JITRuntime {
private static final com.kenai.jffi.MemoryIO IO = com.kenai.jffi.MemoryIO.getInstance();
private JITRuntime() {}
public static int pointerValue32(PyObject ptr) {
return (int) ((Pointer) ptr).getMemory().getAddress();
}
public static long pointerValue64(PyObject ptr) {
return ((Pointer) ptr).getMemory().getAddress();
}
public static int boolValue32(PyObject parameter) {
return parameter.__nonzero__() ? 1 : 0;
}
public static long boolValue64(PyObject parameter) {
return parameter.__nonzero__() ? 1L : 0L;
}
public static int s8Value32(PyObject parameter) {
return (byte) Util.intValue(parameter);
}
public static long s8Value64(PyObject parameter) {
return (byte) Util.intValue(parameter);
}
public static int u8Value32(PyObject parameter) {
return Util.intValue(parameter) & 0xff;
}
public static long u8Value64(PyObject parameter) {
return Util.intValue(parameter) & 0xff;
}
public static int s16Value32(PyObject parameter) {
return (short) Util.intValue(parameter);
}
public static long s16Value64(PyObject parameter) {
return (short) Util.intValue(parameter);
}
public static int u16Value32(PyObject parameter) {
return Util.intValue(parameter) & 0xffff;
}
public static long u16Value64(PyObject parameter) {
return Util.intValue(parameter) & 0xffff;
}
public static int s32Value32(PyObject parameter) {
return Util.intValue(parameter);
}
public static long s32Value64(PyObject parameter) {
return Util.intValue(parameter);
}
public static int u32Value32(PyObject parameter) {
return Util.intValue(parameter);
}
public static long u32Value64(PyObject parameter) {
return Util.intValue(parameter) & 0xffffffffL;
}
public static long s64Value64(PyObject parameter) {
return Util.longValue(parameter);
}
public static long u64Value64(PyObject parameter) {
return Util.longValue(parameter);
}
public static int f32Value32(PyObject parameter) {
return Float.floatToRawIntBits((float) parameter.asDouble());
}
public static long f32Value64(PyObject parameter) {
return Float.floatToRawIntBits((float) parameter.asDouble());
}
public static long f64Value64(PyObject parameter) {
return Double.doubleToRawLongBits(parameter.asDouble());
}
public static PyObject newSigned8(int value) {
return Py.newInteger((byte) value);
}
public static PyObject newSigned8(long value) {
return Py.newInteger((byte) value);
}
public static PyObject newUnsigned8(int value) {
int n = (byte) value; // sign-extend the low 8 bits to 32
return Py.newInteger(n < 0 ? ((n & 0x7F) + 0x80) : n);
}
public static PyObject newUnsigned8(long value) {
int n = (byte) value; // sign-extend the low 8 bits to 32
return Py.newInteger(n < 0 ? ((n & 0x7F) + 0x80) : n);
}
public static PyObject newSigned16(int value) {
return Py.newInteger((short) value);
}
public static PyObject newSigned16(long value) {
return Py.newInteger((short) value);
}
public static PyObject newUnsigned16(int value) {
int n = (short) value; // sign-extend the low 16 bits to 32
return Py.newInteger(n < 0 ? ((n & 0x7FFF) + 0x8000) : n);
}
public static PyObject newUnsigned16(long value) {
int n = (short) value; // sign-extend the low 16 bits to 32
return Py.newInteger(n < 0 ? ((n & 0x7FFF) + 0x8000) : n);
}
public static PyObject newSigned32(int value) {
return Py.newInteger(value);
}
public static PyObject newSigned32(long value) {
return Py.newInteger((int) value);
}
public static PyObject newUnsigned32(int value) {
int n = value;
return n < 0 ? Py.newInteger(((n & 0x7FFFFFFFL) + 0x80000000L)) : Py.newInteger(n);
}
public static PyObject newUnsigned32(long value) {
long n = (int) value; // only keep the low 32 bits
return n < 0 ? Py.newInteger(((n & 0x7FFFFFFFL) + 0x80000000L)) : Py.newInteger(n);
}
public static PyObject newSigned64(int value) {
return Py.newInteger(value);
}
public static PyObject newSigned64(long value) {
return Py.newInteger(value);
}
private static final BigInteger UINT64_BASE = BigInteger.valueOf(Long.MAX_VALUE).add(BigInteger.ONE);
public static PyObject newUnsigned64(long value) {
return value < 0
? Py.newLong(BigInteger.valueOf(value & 0x7fffffffffffffffL).add(UINT64_BASE))
: Py.newInteger(value);
}
public static PyObject newFloat32(int value) {
return Py.newFloat(Float.intBitsToFloat(value));
}
public static PyObject newFloat32(long value) {
return Py.newFloat(Float.intBitsToFloat((int) value));
}
public static PyObject newFloat64(long value) {
return Py.newFloat(Double.longBitsToDouble(value));
}
public static PyObject newBoolean(int value) {
return (value & 0x1) != 0 ? Py.True : Py.False;
}
public static PyObject newBoolean(long value) {
return (value & 0x1) != 0 ? Py.True : Py.False;
}
public static PyObject newNone(int unused) {
return Py.None;
}
public static PyObject newNone(long unused) {
return Py.None;
}
public static PyObject newPointer32(int value) {
return Py.newLong(value);
}
public static PyObject newPointer32(long value) {
return Py.newLong(value & 0xffffffffL);
}
public static PyObject newPointer64(long value) {
return Py.newLong(value);
}
public static PyObject newString(int address) {
return address != 0
? Py.newString(new String(IO.getZeroTerminatedByteArray(address)))
: Py.None;
}
public static PyObject newString(long address) {
return address != 0L
? Py.newString(new String(IO.getZeroTerminatedByteArray(address)))
: Py.None;
}
}