public static char getChar__Ljava_lang_Object_2__C(MJIEnv env, int objRef, int fobjRef) { FieldInfo fi = getFieldInfo(env, objRef); ElementInfo ei = getCheckedElementInfo(env, fi, fobjRef, CharFieldInfo.class, "char"); if (ei != null) { return ei.getCharField(fi); } return 0; }
@MJI public char getChar__Ljava_lang_Object_2__C( MJIEnv env, int objRef, int fobjRef, FeatureExpr ctx) { FieldInfo fi = getFieldInfo(ctx, env, objRef); ElementInfo ei = getCheckedElementInfo(env, objRef, fi, fobjRef, CharFieldInfo.class, "char", false, ctx); if (ei != null) { return ei.getCharField(fi).getValue(); } return 0; }
@MJI public int get__Ljava_lang_Object_2__Ljava_lang_Object_2( MJIEnv env, int objRef, int fobjRef, FeatureExpr ctx) { FieldInfo fi = getFieldInfo(ctx, env, objRef); ElementInfo ei = getCheckedElementInfo( env, objRef, fi, fobjRef, null, null, false, ctx); // no type check here if (ei == null) { return 0; } if (!(fi instanceof ReferenceFieldInfo)) { // primitive type, we need to box it if (fi instanceof DoubleFieldInfo) { Conditional<Double> d = ei.getDoubleField(fi); return env.newDouble(ctx, d); } else if (fi instanceof FloatFieldInfo) { Conditional<Float> f = ei.getFloatField(fi); return env.newFloat(ctx, f); } else if (fi instanceof LongFieldInfo) { Conditional<Long> l = ei.getLongField(fi); return env.newLong(ctx, l); } else if (fi instanceof IntegerFieldInfo) { // this might actually represent a plethora of types Conditional<Integer> i = ei.getIntField(fi); return env.newInteger(ctx, i); } else if (fi instanceof BooleanFieldInfo) { Conditional<Boolean> b = ei.getBooleanField(fi); return env.newBoolean(b.getValue()); } else if (fi instanceof ByteFieldInfo) { Conditional<Byte> z = ei.getByteField(fi); return env.newByte(ctx, z); } else if (fi instanceof CharFieldInfo) { Conditional<Character> c = ei.getCharField(fi); return env.newCharacter(ctx, c); } else if (fi instanceof ShortFieldInfo) { Conditional<Short> s = ei.getShortField(fi); return env.newShort(ctx, s); } } else { // it's a reference int ref = ei.getReferenceField(fi).simplify(ctx).getValue(); // we internally store it as int return ref; } env.throwException(ctx, "java.lang.IllegalArgumentException", "unknown field type"); return MJIEnv.NULL; }
public static int get__Ljava_lang_Object_2__Ljava_lang_Object_2( MJIEnv env, int objRef, int fobjRef) { FieldInfo fi = getFieldInfo(env, objRef); ElementInfo ei = getCheckedElementInfo(env, fi, fobjRef, null, null); // no type check here if (ei == null) { return 0; } if (!(fi instanceof ReferenceFieldInfo)) { // primitive type, we need to box it if (fi instanceof DoubleFieldInfo) { double d = ei.getDoubleField(fi); return env.newDouble(d); } else if (fi instanceof FloatFieldInfo) { float f = ei.getFloatField(fi); return env.newFloat(f); } else if (fi instanceof LongFieldInfo) { long l = ei.getLongField(fi); return env.newLong(l); } else if (fi instanceof IntegerFieldInfo) { // this might actually represent a plethora of types int i = ei.getIntField(fi); return env.newInteger(i); } else if (fi instanceof BooleanFieldInfo) { boolean b = ei.getBooleanField(fi); return env.newBoolean(b); } else if (fi instanceof ByteFieldInfo) { byte z = ei.getByteField(fi); return env.newByte(z); } else if (fi instanceof CharFieldInfo) { char c = ei.getCharField(fi); return env.newCharacter(c); } else if (fi instanceof ShortFieldInfo) { short s = ei.getShortField(fi); return env.newShort(s); } } else { // it's a reference int ref = ei.getReferenceField(fi); // we internally store it as int return ref; } env.throwException("java.lang.IllegalArgumentException", "unknown field type"); return MJIEnv.NULL; }