package org.jruby.java.proxies;
import java.lang.reflect.Array;
import java.util.Arrays;
import org.jruby.*;
import org.jruby.anno.JRubyMethod;
import org.jruby.internal.runtime.methods.DynamicMethod;
import org.jruby.java.util.ArrayUtils;
import org.jruby.javasupport.Java;
import org.jruby.javasupport.JavaArray;
import org.jruby.javasupport.JavaClass;
import org.jruby.javasupport.JavaUtil;
import org.jruby.runtime.Arity;
import org.jruby.runtime.Block;
import org.jruby.runtime.ObjectAllocator;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.Visibility;
import org.jruby.runtime.builtin.IRubyObject;
public final class ArrayJavaProxy extends JavaProxy {
private final JavaUtil.JavaConverter converter;
public ArrayJavaProxy(Ruby runtime, RubyClass klazz, Object array) {
this(runtime, klazz, array, JavaUtil.getJavaConverter(array.getClass().getComponentType()));
}
public ArrayJavaProxy(Ruby runtime, RubyClass klazz, Object array, JavaUtil.JavaConverter converter) {
super(runtime, klazz, array);
this.converter = converter;
}
public static RubyClass createArrayJavaProxy(ThreadContext context) {
Ruby runtime = context.runtime;
RubyClass arrayJavaProxy = runtime.defineClass("ArrayJavaProxy",
runtime.getJavaSupport().getJavaProxyClass(),
ObjectAllocator.NOT_ALLOCATABLE_ALLOCATOR);
RubyClass singleton = arrayJavaProxy.getSingletonClass();
singleton.addMethod("new", new ArrayNewMethod(singleton, Visibility.PUBLIC));
arrayJavaProxy.defineAnnotatedMethods(ArrayJavaProxy.class);
arrayJavaProxy.includeModule(runtime.getEnumerable());
return arrayJavaProxy;
}
static ArrayJavaProxy newArray(final Ruby runtime, final Class<?> elementType, final int... dimensions) {
final Object array;
try {
array = Array.newInstance(elementType, dimensions);
}
catch (IllegalArgumentException e) {
throw runtime.newArgumentError("can not create " + dimensions.length + " dimensional array");
}
return new ArrayJavaProxy(runtime, Java.getProxyClassForObject(runtime, array), array);
}
protected JavaArray asJavaObject(final Object array) {
return new JavaArray(getRuntime(), array);
}
public final JavaArray getJavaArray() {
return (JavaArray) dataGetStruct();
}
public Object get(final int index) {
return Array.get(getObject(), index);
}
public void set(final int index, final Object value) {
Array.set(getObject(), index, value);
}
public IRubyObject setValue(final Ruby runtime, final int index, final IRubyObject value) {
return ArrayUtils.asetDirect(runtime, getObject(), converter, index, value);
}
public final int length() { return Array.getLength( getObject() ); }
@JRubyMethod(name = {"length", "size"})
public RubyFixnum length(ThreadContext context) {
return context.runtime.newFixnum( length() );
}
@JRubyMethod(name = "empty?")
public RubyBoolean empty_p(ThreadContext context) {
return context.runtime.newBoolean( length() == 0 );
}
@JRubyMethod(name = "[]")
public final IRubyObject op_aref(ThreadContext context, IRubyObject arg) {
if ( arg instanceof RubyRange ) return arrayRange(context, (RubyRange) arg);
final int i = convertArrayIndex(arg);
return ArrayUtils.arefDirect(context.runtime, getObject(), converter, i);
}
@JRubyMethod(name = "[]", required = 1, rest = true)
public final IRubyObject op_aref(ThreadContext context, IRubyObject[] args) {
if ( args.length == 1 ) return op_aref(context, args[0]);
return getRange(context, args);
}
@JRubyMethod(name = "[]=")
public final IRubyObject op_aset(ThreadContext context, IRubyObject index, IRubyObject value) {
return setValue(context.runtime, convertArrayIndex(index), value);
}
@JRubyMethod(name = { "include?", "member?" })
public IRubyObject include_p(ThreadContext context, IRubyObject obj) {
final Object array = getObject();
final Class<?> componentClass = array.getClass().getComponentType();
if ( componentClass.isPrimitive() ) {
switch (componentClass.getName().charAt(0)) {
case 'b':
if (componentClass == byte.class) return context.runtime.newBoolean( includes(context, (byte[]) array, obj) );
else return context.runtime.newBoolean( includes(context, (boolean[]) array, obj) );
case 's':
return context.runtime.newBoolean( includes(context, (short[]) array, obj) );
case 'c':
return context.runtime.newBoolean( includes(context, (char[]) array, obj) );
case 'i':
return context.runtime.newBoolean( includes(context, (int[]) array, obj) );
case 'l':
return context.runtime.newBoolean( includes(context, (long[]) array, obj) );
case 'f':
return context.runtime.newBoolean( includes(context, (float[]) array, obj) );
case 'd':
return context.runtime.newBoolean( includes(context, (double[]) array, obj) );
}
}
return context.runtime.newBoolean( includes(context, (Object[]) array, obj) );
}
private boolean includes(final ThreadContext context, final Object[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
for ( int i = 0; i < len; i++ ) {
IRubyObject value = JavaUtil.convertJavaArrayElementToRuby(runtime, converter, array, i);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final byte[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFixnum ) {
final long objVal = ((RubyInteger) obj).getLongValue();
if ( objVal < Byte.MIN_VALUE || objVal > Byte.MAX_VALUE ) return false;
for ( int i = 0; i < len; i++ ) {
if ( (byte) objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFixnum.newFixnum(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final short[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFixnum ) {
final long objVal = ((RubyInteger) obj).getLongValue();
if ( objVal < Short.MIN_VALUE || objVal > Short.MAX_VALUE ) return false;
for ( int i = 0; i < len; i++ ) {
if ( (short) objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFixnum.newFixnum(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final int[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFixnum ) {
final long objVal = ((RubyInteger) obj).getLongValue();
if ( objVal < Integer.MIN_VALUE || objVal > Integer.MAX_VALUE ) return false;
for ( int i = 0; i < len; i++ ) {
if ( (int) objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFixnum.newFixnum(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final long[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFixnum ) {
final long objVal = ((RubyInteger) obj).getLongValue();
for ( int i = 0; i < len; i++ ) {
if ( objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFixnum.newFixnum(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final char[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFixnum ) {
final long objVal = ((RubyInteger) obj).getLongValue();
if ( objVal < Character.MIN_VALUE || objVal > Character.MAX_VALUE ) return false;
for ( int i = 0; i < len; i++ ) {
if ( (int) objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFixnum.newFixnum(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final boolean[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyBoolean ) {
final boolean objVal = ((RubyBoolean) obj).isTrue();
for ( int i = 0; i < len; i++ ) {
if ( objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyBoolean.newBoolean(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final float[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFloat ) {
final double objVal = ((RubyFloat) obj).getDoubleValue();
for ( int i = 0; i < len; i++ ) {
if ( (float) objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFloat.newFloat(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
private boolean includes(final ThreadContext context, final double[] array, final IRubyObject obj) {
final int len = array.length;
if ( len == 0 ) return false;
final Ruby runtime = context.runtime;
if ( obj instanceof RubyFloat ) {
final double objVal = ((RubyFloat) obj).getDoubleValue();
for ( int i = 0; i < len; i++ ) {
if ( objVal == array[i] ) return true;
}
return false;
}
for ( int i = 0; i < len; i++ ) {
IRubyObject value = RubyFloat.newFloat(runtime, array[i]);
if ( equalInternal(context, value, obj) ) return true;
}
return false;
}
@JRubyMethod(name = "first")
public IRubyObject first(ThreadContext context) {
final Object array = getObject();
if ( Array.getLength(array) == 0 ) return context.nil;
return JavaUtil.convertJavaArrayElementToRuby(context.runtime, converter, array, 0);
}
@JRubyMethod(name = "first")
public IRubyObject first(ThreadContext context, IRubyObject count) {
final Object array = getObject();
int len = count.convertToInteger().getIntValue();
int size = Array.getLength(array); if ( len > size ) len = size;
final Ruby runtime = context.runtime;
if ( len == 0 ) return RubyArray.newEmptyArray(runtime);
final IRubyObject[] ary = new IRubyObject[len];
for ( int i = 0; i < len; i++ ) {
ary[i] = JavaUtil.convertJavaArrayElementToRuby(runtime, converter, array, i);
}
return RubyArray.newArrayNoCopy(runtime, ary);
}
@JRubyMethod(name = "last")
public IRubyObject last(ThreadContext context) {
final Object array = getObject();
final int len = Array.getLength(array);
if ( len == 0 ) return context.nil;
return JavaUtil.convertJavaArrayElementToRuby(context.runtime, converter, array, len - 1);
}
@JRubyMethod(name = "last")
public IRubyObject last(ThreadContext context, IRubyObject count) {
final Object array = getObject();
int len = RubyFixnum.fix2int(count);
int size = Array.getLength(array);
int start = size - len; if ( start < 0 ) start = 0;
int end = start + len; if ( end > size ) end = size;
len = end - start;
final Ruby runtime = context.runtime;
if ( len == 0 ) return RubyArray.newEmptyArray(runtime);
final IRubyObject[] ary = new IRubyObject[len];
for ( int i = 0; i < len; i++ ) {
ary[i] = JavaUtil.convertJavaArrayElementToRuby(runtime, converter, array, i + start);
}
return RubyArray.newArrayNoCopy(runtime, ary);
}
@JRubyMethod(name = "count")
public IRubyObject count(final ThreadContext context, final Block block) {
final Ruby runtime = context.runtime;
if ( block.isGiven() ) {
final Object array = getObject(); int count = 0;
for ( int i = 0; i < Array.getLength(array); i++ ) {
IRubyObject next = JavaUtil.convertJavaArrayElementToRuby(runtime, converter, array, i);
if ( block.yield( context, next ).isTrue() ) count++;
}
return RubyFixnum.newFixnum(runtime, count);
}
return RubyFixnum.newFixnum(runtime, length());
}
@JRubyMethod(name = "count")
public IRubyObject count(final ThreadContext context, final IRubyObject obj, final Block unused) {
final Ruby runtime = context.runtime;
final Object array = getObject(); int count = 0;
for ( int i = 0; i < Array.getLength(array); i++ ) {
IRubyObject next = JavaUtil.convertJavaArrayElementToRuby(runtime, converter, array, i);
if ( RubyObject.equalInternal(context, next, obj) ) count++;
}
return RubyFixnum.newFixnum(runtime, count);
}
@JRubyMethod(name = "dig", required = 1, rest = true)
public final IRubyObject dig(ThreadContext context, IRubyObject[] args) {
return dig(context, args, 0);
}
final IRubyObject dig(ThreadContext context, IRubyObject[] args, int idx) {
final IRubyObject val = at(context, args[idx++]);
return idx == args.length ? val : RubyObject.dig(context, val, args, idx);
}
private static int convertArrayIndex(final IRubyObject index) {
if ( index instanceof JavaProxy ) {
return (Integer) index.toJava(Integer.class);
}
return RubyNumeric.num2int(index);
}
@JRubyMethod
public IRubyObject at(ThreadContext context, IRubyObject index) {
return at(context, convertArrayIndex(index));
}
private final IRubyObject at(ThreadContext context, int i) {
final Ruby runtime = context.runtime;
final Object array = getObject();
final int length = Array.getLength(array);
if ( i < 0 ) i = i + length;
if ( i >= 0 && i < length ) {
return ArrayUtils.arefDirect(runtime, array, converter, i);
}
return context.nil;
}
@JRubyMethod(name = "+")
public IRubyObject op_plus(ThreadContext context, IRubyObject other) {
final Object array = getObject();
if ( other instanceof ArrayJavaProxy ) {
final Object otherArray = ((ArrayJavaProxy) other).getObject();
final Class<?> componentType = array.getClass().getComponentType();
if ( componentType.isAssignableFrom( otherArray.getClass().getComponentType() ) ) {
return ArrayUtils.concatArraysDirect(context, array, otherArray);
}
}
return ArrayUtils.concatArraysDirect(context, array, other);
}
@JRubyMethod
public IRubyObject each(ThreadContext context, Block block) {
final Ruby runtime = context.runtime;
if ( ! block.isGiven() ) {
return runtime.getEnumerator().callMethod("new", this, runtime.newSymbol("each"));
}
final Object array = getObject();
final int length = Array.getLength(array);
for ( int i = 0; i < length; i++ ) {
IRubyObject element = ArrayUtils.arefDirect(runtime, array, converter, i);
block.yield(context, element);
}
return this;
}
@JRubyMethod
public IRubyObject each_with_index(final ThreadContext context, final Block block) {
final Ruby runtime = context.runtime;
if ( ! block.isGiven() ) {
return runtime.getEnumerator().callMethod("new", this, runtime.newSymbol("each_with_index"));
}
final boolean arity2 = block.getSignature().arity() == Arity.TWO_ARGUMENTS;
final Object array = getObject();
final int length = Array.getLength(array);
for ( int i = 0; i < length; i++ ) {
IRubyObject element = ArrayUtils.arefDirect(runtime, array, converter, i);
final RubyInteger index = RubyFixnum.newFixnum(runtime, i);
if ( arity2 ) {
block.yieldSpecific(context, element, index);
} else {
block.yield(context, RubyArray.newArray(runtime, element, index));
}
}
return this;
}
@JRubyMethod(name = { "to_a", "entries" }, alias = "to_ary")
public RubyArray to_a(ThreadContext context) {
final Object array = getObject();
return JavaUtil.convertJavaArrayToRubyWithNesting(context, array);
}
@JRubyMethod(name = "component_type")
public IRubyObject component_type(ThreadContext context) {
Class<?> componentType = getObject().getClass().getComponentType();
final JavaClass javaClass = JavaClass.get(context.runtime, componentType);
return Java.getProxyClass(context.runtime, javaClass);
}
@JRubyMethod
public RubyString inspect(ThreadContext context) {
return RubyString.newString(context.runtime, arrayToString());
}
@Override
public String toString() {
return arrayToString().toString();
}
private StringBuilder arrayToString() {
final StringBuilder buffer = new StringBuilder(24);
Class<?> componentClass = getObject().getClass().getComponentType();
buffer.append(componentClass.getName());
if (componentClass.isPrimitive()) {
switch (componentClass.getName().charAt(0)) {
case 'b':
if (componentClass == byte.class) buffer.append(Arrays.toString((byte[])getObject()));
else buffer.append(Arrays.toString((boolean[])getObject()));
break;
case 's':
buffer.append(Arrays.toString((short[])getObject()));
break;
case 'c':
buffer.append(Arrays.toString((char[])getObject()));
break;
case 'i':
buffer.append(Arrays.toString((int[])getObject()));
break;
case 'l':
buffer.append(Arrays.toString((long[])getObject()));
break;
case 'f':
buffer.append(Arrays.toString((float[])getObject()));
break;
case 'd':
buffer.append(Arrays.toString((double[])getObject()));
break;
}
} else {
buffer.append(Arrays.toString((Object[]) getObject()));
}
return buffer.append('@').append(Integer.toHexString(inspectHashCode()));
}
@Override
@JRubyMethod(name = "==")
public RubyBoolean op_equal(ThreadContext context, IRubyObject other) {
if ( other instanceof RubyArray ) {
return context.runtime.newBoolean( equalsRubyArray((RubyArray) other) );
}
return eql_p(context, other);
}
private boolean equalsRubyArray(final RubyArray rubyArray) {
final Object thisArray = this.getObject();
final int len = rubyArray.size();
if ( len != Array.getLength(thisArray) ) return false;
final Class<?> componentType = thisArray.getClass().getComponentType();
for ( int i = 0; i < len; i++ ) {
final Object ruby = rubyArray.eltInternal(i).toJava(componentType);
final Object elem = Array.get(thisArray, i);
if ( ruby == null ) return elem == null;
if ( ! ruby.equals(elem) ) return false;
}
return true;
}
@JRubyMethod(name = "eql?")
public RubyBoolean eql_p(ThreadContext context, IRubyObject obj) {
boolean equals = false;
if ( obj instanceof ArrayJavaProxy ) {
final ArrayJavaProxy that = (ArrayJavaProxy) obj;
equals = arraysEquals(this.getObject(), that.getObject());
}
else if ( obj.getClass().isArray() ) {
equals = arraysEquals(getObject(), obj);
}
return context.runtime.newBoolean(equals);
}
@Override
public boolean equals(Object obj) {
if ( obj instanceof ArrayJavaProxy ) {
final ArrayJavaProxy that = (ArrayJavaProxy) obj;
final Object thisArray = this.getObject();
final Object thatArray = that.getObject();
return arraysEquals(thisArray, thatArray);
}
return false;
}
private static boolean arraysEquals(final Object thisArray, final Object thatArray) {
final Class<?> componentType = thisArray.getClass().getComponentType();
if ( ! componentType.equals(thatArray.getClass().getComponentType()) ) {
return false;
}
if ( componentType.isPrimitive() ) {
switch ( componentType.getName().charAt(0) ) {
case 'b':
if (componentType == byte.class) return Arrays.equals((byte[]) thisArray, (byte[]) thatArray);
else return Arrays.equals((boolean[]) thisArray, (boolean[]) thatArray);
case 's':
return Arrays.equals((short[]) thisArray, (short[]) thatArray);
case 'c':
return Arrays.equals((char[]) thisArray, (char[]) thatArray);
case 'i':
return Arrays.equals((int[]) thisArray, (int[]) thatArray);
case 'l':
return Arrays.equals((long[]) thisArray, (long[]) thatArray);
case 'f':
return Arrays.equals((float[]) thisArray, (float[]) thatArray);
case 'd':
return Arrays.equals((double[]) thisArray, (double[]) thatArray);
}
}
return Arrays.equals((Object[]) thisArray, (Object[]) thatArray);
}
@Override
@JRubyMethod
public RubyFixnum hash() {
return getRuntime().newFixnum( hashCode() );
}
@Override
public int hashCode() {
final Object array = getObject();
final Class<?> componentType = array.getClass().getComponentType();
if ( componentType.isPrimitive() ) {
switch ( componentType.getName().charAt(0) ) {
case 'b':
if (componentType == byte.class) return 11 * Arrays.hashCode((byte[]) array);
else return 11 * Arrays.hashCode((boolean[]) array);
case 's':
return 11 * Arrays.hashCode((short[]) array);
case 'c':
return 11 * Arrays.hashCode((char[]) array);
case 'i':
return 11 * Arrays.hashCode((int[]) array);
case 'l':
return 11 * Arrays.hashCode((long[]) array);
case 'f':
return 11 * Arrays.hashCode((float[]) array);
case 'd':
return 11 * Arrays.hashCode((double[]) array);
}
}
return 11 * Arrays.hashCode((Object[]) array);
}
@Override
public IRubyObject dup() {
final Ruby runtime = getRuntime();
RubyObject dup = new ArrayJavaProxy(runtime, getMetaClass(), cloneObject(), converter);
if (isTaint()) dup.setTaint(true);
initCopy(dup, this, "initialize_dup");
return dup;
}
private static void initCopy(IRubyObject clone, IRubyObject original, String method) {
original.copySpecialInstanceVariables(clone);
if (original.hasVariables()) clone.syncVariables(original);
}
@Override
@JRubyMethod(name = "clone")
public IRubyObject rbClone() {
final Ruby runtime = getRuntime();
RubyObject clone = new ArrayJavaProxy(runtime, getMetaClass(), cloneObject(), converter);
clone.setMetaClass(getSingletonClassClone());
if (isTaint()) clone.setTaint(true);
initCopy(clone, this, "initialize_clone");
if (isFrozen()) clone.setFrozen(true);
return clone;
}
@Override
protected Object cloneObject() {
final Object array = getObject();
final Class<?> componentType = array.getClass().getComponentType();
if ( componentType.isPrimitive() ) {
switch ( componentType.getName().charAt(0) ) {
case 'b':
if (componentType == byte.class) return ((byte[]) array).clone();
else return ((boolean[]) array).clone();
case 's':
return ((short[]) array).clone();
case 'c':
return ((char[]) array).clone();
case 'i':
return ((int[]) array).clone();
case 'l':
return ((long[]) array).clone();
case 'f':
return ((float[]) array).clone();
case 'd':
return ((double[]) array).clone();
}
}
return ((Object[]) array).clone();
}
public IRubyObject getRange(ThreadContext context, IRubyObject[] args) {
if (args.length == 1) {
return getRange(context, args[0]);
}
if (args.length == 2) {
return getRange(context, args[0], args[1]);
}
throw context.runtime.newArgumentError(args.length, 1);
}
public IRubyObject getRange(ThreadContext context, IRubyObject arg0) {
if ( arg0 instanceof RubyRange ) {
return arrayRange(context, (RubyRange) arg0);
}
throw context.runtime.newTypeError(arg0, context.runtime.getRange());
}
private IRubyObject arrayRange(final ThreadContext context, final RubyRange range) {
final Object array = getObject();
final int arrayLength = Array.getLength( array );
final IRubyObject rFirst = range.first(context);
final IRubyObject rLast = range.last(context);
if ( rFirst instanceof RubyFixnum && rLast instanceof RubyFixnum ) {
int first = RubyFixnum.fix2int((RubyFixnum) rFirst);
int last = RubyFixnum.fix2int((RubyFixnum) rLast);
first = first >= 0 ? first : arrayLength + first;
if (first < 0 || first >= arrayLength) return context.nil;
last = last >= 0 ? last : arrayLength + last;
int newLength = last - first;
if ( !range.isExcludeEnd() ) newLength++;
if (newLength <= 0) {
return ArrayUtils.emptyJavaArrayDirect(context, array.getClass().getComponentType());
}
return subarrayProxy(context, array, arrayLength, first, newLength);
}
throw context.runtime.newTypeError("only Integer ranges supported");
}
public IRubyObject getRange(ThreadContext context, IRubyObject first, IRubyObject length) {
return arrayRange(context, first, length);
}
private IRubyObject arrayRange(final ThreadContext context,
final IRubyObject rFirst, final IRubyObject rLength) {
final Object array = getObject();
final int arrayLength = Array.getLength( array );
if ( rFirst instanceof RubyFixnum && rLength instanceof RubyFixnum ) {
int first = RubyFixnum.fix2int((RubyFixnum) rFirst);
int length = RubyFixnum.fix2int((RubyFixnum) rLength);
if (length > arrayLength) {
throw context.runtime.newIndexError("length specified is longer than array");
}
if (length < 0) return context.nil;
first = first >= 0 ? first : arrayLength + first;
if (first >= arrayLength) return context.nil;
return subarrayProxy(context, array, arrayLength, first, length);
}
throw context.runtime.newTypeError("only Integer ranges supported");
}
private IRubyObject subarrayProxy(ThreadContext context, Object ary, final int aryLength, int index, int size) {
if (index + size > aryLength) size = aryLength - index;
ArrayJavaProxy proxy = ArrayUtils.newProxiedArray(context.runtime, ary.getClass().getComponentType(), converter, size);
System.arraycopy(ary, index, proxy.getObject(), 0, size);
return proxy;
}
private static final class ArrayNewMethod extends org.jruby.internal.runtime.methods.JavaMethod.JavaMethodOne {
private final DynamicMethod newMethod;
ArrayNewMethod(RubyModule implClass, Visibility visibility) {
this(implClass, visibility, implClass.searchMethod("new"));
}
public ArrayNewMethod(RubyModule implClass, Visibility visibility, DynamicMethod oldNew) {
super(implClass, visibility, "new");
this.newMethod = oldNew;
}
@Override
public final IRubyObject call(ThreadContext context, IRubyObject self, RubyModule clazz, String name, IRubyObject arg0) {
final Ruby runtime = context.runtime;
if ( ! ( arg0 instanceof JavaArray ) ) {
throw runtime.newTypeError(arg0, runtime.getJavaSupport().getJavaArrayClass());
}
IRubyObject proxy = newMethod.call(context, self, clazz, "new_proxy");
proxy.dataWrapStruct(arg0);
return proxy;
}
}
}
ArrayJavaProxy
converter: JavaConverter
newArray(Ruby, Class<Object>, int[]): ArrayJavaProxy
asJavaObject(Object): JavaArray
https://github.com/jruby/jruby/jruby-core: JRuby is the effort to recreate the Ruby (https://www.ruby-lang.org) interpreter in Java.
(JRuby)