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src/jdk.incubator.vector/share/classes/jdk/incubator/vector/Float256Vector.java
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rev 54658 : refactored mask and shuffle creation methods, moved classes to top-level
*** 36,57 ****
import jdk.internal.vm.annotation.ForceInline;
import static jdk.incubator.vector.VectorIntrinsics.*;
@SuppressWarnings("cast")
final class Float256Vector extends FloatVector {
! private static final Species<Float> SPECIES = FloatVector.SPECIES_256;
static final Float256Vector ZERO = new Float256Vector();
static final int LENGTH = SPECIES.length();
// Index vector species
private static final IntVector.IntSpecies INDEX_SPECIES;
static {
int bitSize = Vector.bitSizeForVectorLength(int.class, LENGTH);
! INDEX_SPECIES = (IntVector.IntSpecies) IntVector.species(Shape.forBitSize(bitSize));
}
private final float[] vec; // Don't access directly, use getElements() instead.
private float[] getElements() {
--- 36,57 ----
import jdk.internal.vm.annotation.ForceInline;
import static jdk.incubator.vector.VectorIntrinsics.*;
@SuppressWarnings("cast")
final class Float256Vector extends FloatVector {
! private static final VectorSpecies<Float> SPECIES = FloatVector.SPECIES_256;
static final Float256Vector ZERO = new Float256Vector();
static final int LENGTH = SPECIES.length();
// Index vector species
private static final IntVector.IntSpecies INDEX_SPECIES;
static {
int bitSize = Vector.bitSizeForVectorLength(int.class, LENGTH);
! INDEX_SPECIES = (IntVector.IntSpecies) IntVector.species(VectorShape.forBitSize(bitSize));
}
private final float[] vec; // Don't access directly, use getElements() instead.
private float[] getElements() {
*** 80,90 ****
}
return new Float256Vector(res);
}
@Override
! Float256Vector uOp(Mask<Float> o, FUnOp f) {
float[] vec = getElements();
float[] res = new float[length()];
boolean[] mbits = ((Float256Mask)o).getBits();
for (int i = 0; i < length(); i++) {
res[i] = mbits[i] ? f.apply(i, vec[i]) : vec[i];
--- 80,90 ----
}
return new Float256Vector(res);
}
@Override
! Float256Vector uOp(VectorMask<Float> o, FUnOp f) {
float[] vec = getElements();
float[] res = new float[length()];
boolean[] mbits = ((Float256Mask)o).getBits();
for (int i = 0; i < length(); i++) {
res[i] = mbits[i] ? f.apply(i, vec[i]) : vec[i];
*** 104,114 ****
}
return new Float256Vector(res);
}
@Override
! Float256Vector bOp(Vector<Float> o1, Mask<Float> o2, FBinOp f) {
float[] res = new float[length()];
float[] vec1 = this.getElements();
float[] vec2 = ((Float256Vector)o1).getElements();
boolean[] mbits = ((Float256Mask)o2).getBits();
for (int i = 0; i < length(); i++) {
--- 104,114 ----
}
return new Float256Vector(res);
}
@Override
! Float256Vector bOp(Vector<Float> o1, VectorMask<Float> o2, FBinOp f) {
float[] res = new float[length()];
float[] vec1 = this.getElements();
float[] vec2 = ((Float256Vector)o1).getElements();
boolean[] mbits = ((Float256Mask)o2).getBits();
for (int i = 0; i < length(); i++) {
*** 130,140 ****
}
return new Float256Vector(res);
}
@Override
! Float256Vector tOp(Vector<Float> o1, Vector<Float> o2, Mask<Float> o3, FTriOp f) {
float[] res = new float[length()];
float[] vec1 = getElements();
float[] vec2 = ((Float256Vector)o1).getElements();
float[] vec3 = ((Float256Vector)o2).getElements();
boolean[] mbits = ((Float256Mask)o3).getBits();
--- 130,140 ----
}
return new Float256Vector(res);
}
@Override
! Float256Vector tOp(Vector<Float> o1, Vector<Float> o2, VectorMask<Float> o3, FTriOp f) {
float[] res = new float[length()];
float[] vec1 = getElements();
float[] vec2 = ((Float256Vector)o1).getElements();
float[] vec3 = ((Float256Vector)o2).getElements();
boolean[] mbits = ((Float256Mask)o3).getBits();
*** 153,163 ****
return v;
}
@Override
@ForceInline
! public <F> Vector<F> cast(Species<F> s) {
Objects.requireNonNull(s);
if (s.length() != LENGTH)
throw new IllegalArgumentException("Vector length this species length differ");
return VectorIntrinsics.cast(
--- 153,163 ----
return v;
}
@Override
@ForceInline
! public <F> Vector<F> cast(VectorSpecies<F> s) {
Objects.requireNonNull(s);
if (s.length() != LENGTH)
throw new IllegalArgumentException("Vector length this species length differ");
return VectorIntrinsics.cast(
*** 170,242 ****
);
}
@SuppressWarnings("unchecked")
@ForceInline
! private <F> Vector<F> castDefault(Species<F> s) {
int limit = s.length();
Class<?> stype = s.elementType();
if (stype == byte.class) {
byte[] a = new byte[limit];
for (int i = 0; i < limit; i++) {
a[i] = (byte) this.get(i);
}
! return (Vector) ByteVector.fromArray((Species<Byte>) s, a, 0);
} else if (stype == short.class) {
short[] a = new short[limit];
for (int i = 0; i < limit; i++) {
a[i] = (short) this.get(i);
}
! return (Vector) ShortVector.fromArray((Species<Short>) s, a, 0);
} else if (stype == int.class) {
int[] a = new int[limit];
for (int i = 0; i < limit; i++) {
a[i] = (int) this.get(i);
}
! return (Vector) IntVector.fromArray((Species<Integer>) s, a, 0);
} else if (stype == long.class) {
long[] a = new long[limit];
for (int i = 0; i < limit; i++) {
a[i] = (long) this.get(i);
}
! return (Vector) LongVector.fromArray((Species<Long>) s, a, 0);
} else if (stype == float.class) {
float[] a = new float[limit];
for (int i = 0; i < limit; i++) {
a[i] = (float) this.get(i);
}
! return (Vector) FloatVector.fromArray((Species<Float>) s, a, 0);
} else if (stype == double.class) {
double[] a = new double[limit];
for (int i = 0; i < limit; i++) {
a[i] = (double) this.get(i);
}
! return (Vector) DoubleVector.fromArray((Species<Double>) s, a, 0);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <F> Vector<F> reinterpret(Species<F> s) {
Objects.requireNonNull(s);
if(s.elementType().equals(float.class)) {
! return (Vector<F>) reshape((Species<Float>)s);
}
if(s.bitSize() == bitSize()) {
return reinterpretType(s);
}
return defaultReinterpret(s);
}
@ForceInline
! private <F> Vector<F> reinterpretType(Species<F> s) {
Objects.requireNonNull(s);
Class<?> stype = s.elementType();
if (stype == byte.class) {
return VectorIntrinsics.reinterpret(
--- 170,242 ----
);
}
@SuppressWarnings("unchecked")
@ForceInline
! private <F> Vector<F> castDefault(VectorSpecies<F> s) {
int limit = s.length();
Class<?> stype = s.elementType();
if (stype == byte.class) {
byte[] a = new byte[limit];
for (int i = 0; i < limit; i++) {
a[i] = (byte) this.get(i);
}
! return (Vector) ByteVector.fromArray((VectorSpecies<Byte>) s, a, 0);
} else if (stype == short.class) {
short[] a = new short[limit];
for (int i = 0; i < limit; i++) {
a[i] = (short) this.get(i);
}
! return (Vector) ShortVector.fromArray((VectorSpecies<Short>) s, a, 0);
} else if (stype == int.class) {
int[] a = new int[limit];
for (int i = 0; i < limit; i++) {
a[i] = (int) this.get(i);
}
! return (Vector) IntVector.fromArray((VectorSpecies<Integer>) s, a, 0);
} else if (stype == long.class) {
long[] a = new long[limit];
for (int i = 0; i < limit; i++) {
a[i] = (long) this.get(i);
}
! return (Vector) LongVector.fromArray((VectorSpecies<Long>) s, a, 0);
} else if (stype == float.class) {
float[] a = new float[limit];
for (int i = 0; i < limit; i++) {
a[i] = (float) this.get(i);
}
! return (Vector) FloatVector.fromArray((VectorSpecies<Float>) s, a, 0);
} else if (stype == double.class) {
double[] a = new double[limit];
for (int i = 0; i < limit; i++) {
a[i] = (double) this.get(i);
}
! return (Vector) DoubleVector.fromArray((VectorSpecies<Double>) s, a, 0);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <F> Vector<F> reinterpret(VectorSpecies<F> s) {
Objects.requireNonNull(s);
if(s.elementType().equals(float.class)) {
! return (Vector<F>) reshape((VectorSpecies<Float>)s);
}
if(s.bitSize() == bitSize()) {
return reinterpretType(s);
}
return defaultReinterpret(s);
}
@ForceInline
! private <F> Vector<F> reinterpretType(VectorSpecies<F> s) {
Objects.requireNonNull(s);
Class<?> stype = s.elementType();
if (stype == byte.class) {
return VectorIntrinsics.reinterpret(
*** 297,307 ****
}
}
@Override
@ForceInline
! public FloatVector reshape(Species<Float> s) {
Objects.requireNonNull(s);
if (s.bitSize() == 64 && (s.boxType() == Float64Vector.class)) {
return VectorIntrinsics.reinterpret(
Float256Vector.class,
float.class, LENGTH,
--- 297,307 ----
}
}
@Override
@ForceInline
! public FloatVector reshape(VectorSpecies<Float> s) {
Objects.requireNonNull(s);
if (s.bitSize() == 64 && (s.boxType() == Float64Vector.class)) {
return VectorIntrinsics.reinterpret(
Float256Vector.class,
float.class, LENGTH,
*** 360,370 ****
return add((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector add(float o, Mask<Float> m) {
return add((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 360,370 ----
return add((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector add(float o, VectorMask<Float> m) {
return add((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 372,382 ****
return sub((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector sub(float o, Mask<Float> m) {
return sub((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 372,382 ----
return sub((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector sub(float o, VectorMask<Float> m) {
return sub((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 384,394 ****
return mul((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector mul(float o, Mask<Float> m) {
return mul((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 384,394 ----
return mul((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector mul(float o, VectorMask<Float> m) {
return mul((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 402,448 ****
return max((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> equal(float o) {
return equal((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> notEqual(float o) {
return notEqual((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> lessThan(float o) {
return lessThan((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> lessThanEq(float o) {
return lessThanEq((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> greaterThan(float o) {
return greaterThan((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public Mask<Float> greaterThanEq(float o) {
return greaterThanEq((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector blend(float o, Mask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 402,448 ----
return max((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> equal(float o) {
return equal((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> notEqual(float o) {
return notEqual((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> lessThan(float o) {
return lessThan((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> lessThanEq(float o) {
return lessThanEq((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> greaterThan(float o) {
return greaterThan((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public VectorMask<Float> greaterThanEq(float o) {
return greaterThanEq((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector blend(float o, VectorMask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 450,466 ****
return div((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector div(float o, Mask<Float> m) {
return div((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
! public Float256Vector div(Vector<Float> v, Mask<Float> m) {
return blend(div(v), m);
}
@Override
@ForceInline
--- 450,466 ----
return div((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector div(float o, VectorMask<Float> m) {
return div((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
! public Float256Vector div(Vector<Float> v, VectorMask<Float> m) {
return blend(div(v), m);
}
@Override
@ForceInline
*** 468,478 ****
return atan2((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector atan2(float o, Mask<Float> m) {
return atan2((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 468,478 ----
return atan2((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector atan2(float o, VectorMask<Float> m) {
return atan2((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 480,490 ****
return pow((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector pow(float o, Mask<Float> m) {
return pow((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
--- 480,490 ----
return pow((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector pow(float o, VectorMask<Float> m) {
return pow((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
@Override
@ForceInline
*** 492,502 ****
return fma((Float256Vector)FloatVector.broadcast(SPECIES, o1), (Float256Vector)FloatVector.broadcast(SPECIES, o2));
}
@Override
@ForceInline
! public FloatVector fma(float o1, float o2, Mask<Float> m) {
return fma((Float256Vector)FloatVector.broadcast(SPECIES, o1), (Float256Vector)FloatVector.broadcast(SPECIES, o2), m);
}
@Override
@ForceInline
--- 492,502 ----
return fma((Float256Vector)FloatVector.broadcast(SPECIES, o1), (Float256Vector)FloatVector.broadcast(SPECIES, o2));
}
@Override
@ForceInline
! public FloatVector fma(float o1, float o2, VectorMask<Float> m) {
return fma((Float256Vector)FloatVector.broadcast(SPECIES, o1), (Float256Vector)FloatVector.broadcast(SPECIES, o2), m);
}
@Override
@ForceInline
*** 504,523 ****
return hypot((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector hypot(float o, Mask<Float> m) {
return hypot((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
// Unary operations
@ForceInline
@Override
! public Float256Vector neg(Mask<Float> m) {
return blend(neg(), m);
}
@Override
@ForceInline
--- 504,523 ----
return hypot((Float256Vector)FloatVector.broadcast(SPECIES, o));
}
@Override
@ForceInline
! public FloatVector hypot(float o, VectorMask<Float> m) {
return hypot((Float256Vector)FloatVector.broadcast(SPECIES, o), m);
}
// Unary operations
@ForceInline
@Override
! public Float256Vector neg(VectorMask<Float> m) {
return blend(neg(), m);
}
@Override
@ForceInline
*** 528,538 ****
v1 -> v1.uOp((i, a) -> (float) Math.abs(a)));
}
@ForceInline
@Override
! public Float256Vector abs(Mask<Float> m) {
return blend(abs(), m);
}
@Override
@ForceInline
--- 528,538 ----
v1 -> v1.uOp((i, a) -> (float) Math.abs(a)));
}
@ForceInline
@Override
! public Float256Vector abs(VectorMask<Float> m) {
return blend(abs(), m);
}
@Override
@ForceInline
*** 745,755 ****
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a + b)));
}
@Override
@ForceInline
! public Float256Vector add(Vector<Float> v, Mask<Float> m) {
return blend(add(v), m);
}
@Override
@ForceInline
--- 745,755 ----
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a + b)));
}
@Override
@ForceInline
! public Float256Vector add(Vector<Float> v, VectorMask<Float> m) {
return blend(add(v), m);
}
@Override
@ForceInline
*** 762,772 ****
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a - b)));
}
@Override
@ForceInline
! public Float256Vector sub(Vector<Float> v, Mask<Float> m) {
return blend(sub(v), m);
}
@Override
@ForceInline
--- 762,772 ----
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a - b)));
}
@Override
@ForceInline
! public Float256Vector sub(Vector<Float> v, VectorMask<Float> m) {
return blend(sub(v), m);
}
@Override
@ForceInline
*** 779,789 ****
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a * b)));
}
@Override
@ForceInline
! public Float256Vector mul(Vector<Float> v, Mask<Float> m) {
return blend(mul(v), m);
}
@Override
@ForceInline
--- 779,789 ----
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float)(a * b)));
}
@Override
@ForceInline
! public Float256Vector mul(Vector<Float> v, VectorMask<Float> m) {
return blend(mul(v), m);
}
@Override
@ForceInline
*** 796,806 ****
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float) Math.min(a, b)));
}
@Override
@ForceInline
! public Float256Vector min(Vector<Float> v, Mask<Float> m) {
return blend(min(v), m);
}
@Override
@ForceInline
--- 796,806 ----
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float) Math.min(a, b)));
}
@Override
@ForceInline
! public Float256Vector min(Vector<Float> v, VectorMask<Float> m) {
return blend(min(v), m);
}
@Override
@ForceInline
*** 813,823 ****
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float) Math.max(a, b)));
}
@Override
@ForceInline
! public Float256Vector max(Vector<Float> v, Mask<Float> m) {
return blend(max(v), m);
}
// Ternary operations
--- 813,823 ----
(v1, v2) -> v1.bOp(v2, (i, a, b) -> (float) Math.max(a, b)));
}
@Override
@ForceInline
! public Float256Vector max(Vector<Float> v, VectorMask<Float> m) {
return blend(max(v), m);
}
// Ternary operations
*** 890,931 ****
}
@Override
@ForceInline
! public float addAll(Mask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, (float) 0), m).addAll();
}
@Override
@ForceInline
! public float mulAll(Mask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, (float) 1), m).mulAll();
}
@Override
@ForceInline
! public float minAll(Mask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, Float.MAX_VALUE), m).minAll();
}
@Override
@ForceInline
! public float maxAll(Mask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, Float.MIN_VALUE), m).maxAll();
}
@Override
@ForceInline
! public Shuffle<Float> toShuffle() {
float[] a = toArray();
int[] sa = new int[a.length];
for (int i = 0; i < a.length; i++) {
sa[i] = (int) a[i];
}
! return FloatVector.shuffleFromArray(SPECIES, sa, 0);
}
// Memory operations
private static final int ARRAY_SHIFT = 31 - Integer.numberOfLeadingZeros(Unsafe.ARRAY_FLOAT_INDEX_SCALE);
--- 890,931 ----
}
@Override
@ForceInline
! public float addAll(VectorMask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, (float) 0), m).addAll();
}
@Override
@ForceInline
! public float mulAll(VectorMask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, (float) 1), m).mulAll();
}
@Override
@ForceInline
! public float minAll(VectorMask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, Float.MAX_VALUE), m).minAll();
}
@Override
@ForceInline
! public float maxAll(VectorMask<Float> m) {
return blend((Float256Vector)FloatVector.broadcast(SPECIES, Float.MIN_VALUE), m).maxAll();
}
@Override
@ForceInline
! public VectorShuffle<Float> toShuffle() {
float[] a = toArray();
int[] sa = new int[a.length];
for (int i = 0; i < a.length; i++) {
sa[i] = (int) a[i];
}
! return VectorShuffle.fromArray(SPECIES, sa, 0);
}
// Memory operations
private static final int ARRAY_SHIFT = 31 - Integer.numberOfLeadingZeros(Unsafe.ARRAY_FLOAT_INDEX_SCALE);
*** 943,953 ****
(arr, idx, v) -> v.forEach((i, e) -> arr[idx + i] = e));
}
@Override
@ForceInline
! public final void intoArray(float[] a, int ax, Mask<Float> m) {
FloatVector oldVal = FloatVector.fromArray(SPECIES, a, ax);
FloatVector newVal = oldVal.blend(this, m);
newVal.intoArray(a, ax);
}
@Override
--- 943,953 ----
(arr, idx, v) -> v.forEach((i, e) -> arr[idx + i] = e));
}
@Override
@ForceInline
! public final void intoArray(float[] a, int ax, VectorMask<Float> m) {
FloatVector oldVal = FloatVector.fromArray(SPECIES, a, ax);
FloatVector newVal = oldVal.blend(this, m);
newVal.intoArray(a, ax);
}
@Override
*** 968,978 ****
(arr, idx, v, indexMap, idy) -> v.forEach((i, e) -> arr[idx+indexMap[idy+i]] = e));
}
@Override
@ForceInline
! public final void intoArray(float[] a, int ax, Mask<Float> m, int[] b, int iy) {
// @@@ This can result in out of bounds errors for unset mask lanes
FloatVector oldVal = FloatVector.fromArray(SPECIES, a, ax, b, iy);
FloatVector newVal = oldVal.blend(this, m);
newVal.intoArray(a, ax, b, iy);
}
--- 968,978 ----
(arr, idx, v, indexMap, idy) -> v.forEach((i, e) -> arr[idx+indexMap[idy+i]] = e));
}
@Override
@ForceInline
! public final void intoArray(float[] a, int ax, VectorMask<Float> m, int[] b, int iy) {
// @@@ This can result in out of bounds errors for unset mask lanes
FloatVector oldVal = FloatVector.fromArray(SPECIES, a, ax, b, iy);
FloatVector newVal = oldVal.blend(this, m);
newVal.intoArray(a, ax, b, iy);
}
*** 993,1003 ****
});
}
@Override
@ForceInline
! public final void intoByteArray(byte[] a, int ix, Mask<Float> m) {
Float256Vector oldVal = (Float256Vector) FloatVector.fromByteArray(SPECIES, a, ix);
Float256Vector newVal = oldVal.blend(this, m);
newVal.intoByteArray(a, ix);
}
--- 993,1003 ----
});
}
@Override
@ForceInline
! public final void intoByteArray(byte[] a, int ix, VectorMask<Float> m) {
Float256Vector oldVal = (Float256Vector) FloatVector.fromByteArray(SPECIES, a, ix);
Float256Vector newVal = oldVal.blend(this, m);
newVal.intoByteArray(a, ix);
}
*** 1022,1032 ****
});
}
@Override
@ForceInline
! public void intoByteBuffer(ByteBuffer bb, int ix, Mask<Float> m) {
Float256Vector oldVal = (Float256Vector) FloatVector.fromByteBuffer(SPECIES, bb, ix);
Float256Vector newVal = oldVal.blend(this, m);
newVal.intoByteBuffer(bb, ix);
}
--- 1022,1032 ----
});
}
@Override
@ForceInline
! public void intoByteBuffer(ByteBuffer bb, int ix, VectorMask<Float> m) {
Float256Vector oldVal = (Float256Vector) FloatVector.fromByteBuffer(SPECIES, bb, ix);
Float256Vector newVal = oldVal.blend(this, m);
newVal.intoByteBuffer(bb, ix);
}
*** 1147,1157 ****
f.apply(i, vec[i]);
}
}
@Override
! void forEach(Mask<Float> o, FUnCon f) {
boolean[] mbits = ((Float256Mask)o).getBits();
forEach((i, a) -> {
if (mbits[i]) { f.apply(i, a); }
});
}
--- 1147,1157 ----
f.apply(i, vec[i]);
}
}
@Override
! void forEach(VectorMask<Float> o, FUnCon f) {
boolean[] mbits = ((Float256Mask)o).getBits();
forEach((i, a) -> {
if (mbits[i]) { f.apply(i, a); }
});
}
*** 1212,1228 ****
}
@Override
@ForceInline
public Float256Vector rearrange(Vector<Float> v,
! Shuffle<Float> s, Mask<Float> m) {
return this.rearrange(s).blend(v.rearrange(s), m);
}
@Override
@ForceInline
! public Float256Vector rearrange(Shuffle<Float> o1) {
Objects.requireNonNull(o1);
Float256Shuffle s = (Float256Shuffle)o1;
return VectorIntrinsics.rearrangeOp(
Float256Vector.class, Float256Shuffle.class, float.class, LENGTH,
--- 1212,1228 ----
}
@Override
@ForceInline
public Float256Vector rearrange(Vector<Float> v,
! VectorShuffle<Float> s, VectorMask<Float> m) {
return this.rearrange(s).blend(v.rearrange(s), m);
}
@Override
@ForceInline
! public Float256Vector rearrange(VectorShuffle<Float> o1) {
Objects.requireNonNull(o1);
Float256Shuffle s = (Float256Shuffle)o1;
return VectorIntrinsics.rearrangeOp(
Float256Vector.class, Float256Shuffle.class, float.class, LENGTH,
*** 1233,1243 ****
}));
}
@Override
@ForceInline
! public Float256Vector blend(Vector<Float> o1, Mask<Float> o2) {
Objects.requireNonNull(o1);
Objects.requireNonNull(o2);
Float256Vector v = (Float256Vector)o1;
Float256Mask m = (Float256Mask)o2;
--- 1233,1243 ----
}));
}
@Override
@ForceInline
! public Float256Vector blend(Vector<Float> o1, VectorMask<Float> o2) {
Objects.requireNonNull(o1);
Objects.requireNonNull(o2);
Float256Vector v = (Float256Vector)o1;
Float256Mask m = (Float256Mask)o2;
*** 1318,1339 ****
}
return new Float256Mask(res);
}
@Override
! Float256Mask bOp(Mask<Float> o, MBinOp f) {
boolean[] res = new boolean[species().length()];
boolean[] bits = getBits();
boolean[] mbits = ((Float256Mask)o).getBits();
for (int i = 0; i < species().length(); i++) {
res[i] = f.apply(i, bits[i], mbits[i]);
}
return new Float256Mask(res);
}
@Override
! public Species<Float> species() {
return SPECIES;
}
@Override
public Float256Vector toVector() {
--- 1318,1339 ----
}
return new Float256Mask(res);
}
@Override
! Float256Mask bOp(VectorMask<Float> o, MBinOp f) {
boolean[] res = new boolean[species().length()];
boolean[] bits = getBits();
boolean[] mbits = ((Float256Mask)o).getBits();
for (int i = 0; i < species().length(); i++) {
res[i] = f.apply(i, bits[i], mbits[i]);
}
return new Float256Mask(res);
}
@Override
! public VectorSpecies<Float> species() {
return SPECIES;
}
@Override
public Float256Vector toVector() {
*** 1348,1374 ****
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <E> Mask<E> cast(Species<E> species) {
if (length() != species.length())
! throw new IllegalArgumentException("Mask length and species length differ");
Class<?> stype = species.elementType();
boolean [] maskArray = toArray();
if (stype == byte.class) {
! return (Mask <E>) new Byte256Vector.Byte256Mask(maskArray);
} else if (stype == short.class) {
! return (Mask <E>) new Short256Vector.Short256Mask(maskArray);
} else if (stype == int.class) {
! return (Mask <E>) new Int256Vector.Int256Mask(maskArray);
} else if (stype == long.class) {
! return (Mask <E>) new Long256Vector.Long256Mask(maskArray);
} else if (stype == float.class) {
! return (Mask <E>) new Float256Vector.Float256Mask(maskArray);
} else if (stype == double.class) {
! return (Mask <E>) new Double256Vector.Double256Mask(maskArray);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
--- 1348,1374 ----
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <E> VectorMask<E> cast(VectorSpecies<E> species) {
if (length() != species.length())
! throw new IllegalArgumentException("VectorMask length and species length differ");
Class<?> stype = species.elementType();
boolean [] maskArray = toArray();
if (stype == byte.class) {
! return (VectorMask <E>) new Byte256Vector.Byte256Mask(maskArray);
} else if (stype == short.class) {
! return (VectorMask <E>) new Short256Vector.Short256Mask(maskArray);
} else if (stype == int.class) {
! return (VectorMask <E>) new Int256Vector.Int256Mask(maskArray);
} else if (stype == long.class) {
! return (VectorMask <E>) new Long256Vector.Long256Mask(maskArray);
} else if (stype == float.class) {
! return (VectorMask <E>) new Float256Vector.Float256Mask(maskArray);
} else if (stype == double.class) {
! return (VectorMask <E>) new Double256Vector.Double256Mask(maskArray);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
*** 1385,1405 ****
// Binary operations
@Override
@ForceInline
! public Float256Mask and(Mask<Float> o) {
Objects.requireNonNull(o);
Float256Mask m = (Float256Mask)o;
return VectorIntrinsics.binaryOp(VECTOR_OP_AND, Float256Mask.class, int.class, LENGTH,
this, m,
(m1, m2) -> m1.bOp(m2, (i, a, b) -> a & b));
}
@Override
@ForceInline
! public Float256Mask or(Mask<Float> o) {
Objects.requireNonNull(o);
Float256Mask m = (Float256Mask)o;
return VectorIntrinsics.binaryOp(VECTOR_OP_OR, Float256Mask.class, int.class, LENGTH,
this, m,
(m1, m2) -> m1.bOp(m2, (i, a, b) -> a | b));
--- 1385,1405 ----
// Binary operations
@Override
@ForceInline
! public Float256Mask and(VectorMask<Float> o) {
Objects.requireNonNull(o);
Float256Mask m = (Float256Mask)o;
return VectorIntrinsics.binaryOp(VECTOR_OP_AND, Float256Mask.class, int.class, LENGTH,
this, m,
(m1, m2) -> m1.bOp(m2, (i, a, b) -> a & b));
}
@Override
@ForceInline
! public Float256Mask or(VectorMask<Float> o) {
Objects.requireNonNull(o);
Float256Mask m = (Float256Mask)o;
return VectorIntrinsics.binaryOp(VECTOR_OP_OR, Float256Mask.class, int.class, LENGTH,
this, m,
(m1, m2) -> m1.bOp(m2, (i, a, b) -> a | b));
*** 1417,1427 ****
@Override
@ForceInline
public boolean allTrue() {
return VectorIntrinsics.test(BT_overflow, Float256Mask.class, int.class, LENGTH,
! this, FloatVector.maskAllTrue(species()),
(m, __) -> allTrueHelper(((Float256Mask)m).getBits()));
}
}
// Shuffle
--- 1417,1427 ----
@Override
@ForceInline
public boolean allTrue() {
return VectorIntrinsics.test(BT_overflow, Float256Mask.class, int.class, LENGTH,
! this, VectorMask.maskAllTrue(species()),
(m, __) -> allTrueHelper(((Float256Mask)m).getBits()));
}
}
// Shuffle
*** 1442,1452 ****
public Float256Shuffle(IntUnaryOperator f) {
super(f);
}
@Override
! public Species<Float> species() {
return SPECIES;
}
@Override
public FloatVector toVector() {
--- 1442,1452 ----
public Float256Shuffle(IntUnaryOperator f) {
super(f);
}
@Override
! public VectorSpecies<Float> species() {
return SPECIES;
}
@Override
public FloatVector toVector() {
*** 1458,1502 ****
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <F> Shuffle<F> cast(Species<F> species) {
if (length() != species.length())
throw new IllegalArgumentException("Shuffle length and species length differ");
Class<?> stype = species.elementType();
int [] shuffleArray = toArray();
if (stype == byte.class) {
! return (Shuffle<F>) new Byte256Vector.Byte256Shuffle(shuffleArray);
} else if (stype == short.class) {
! return (Shuffle<F>) new Short256Vector.Short256Shuffle(shuffleArray);
} else if (stype == int.class) {
! return (Shuffle<F>) new Int256Vector.Int256Shuffle(shuffleArray);
} else if (stype == long.class) {
! return (Shuffle<F>) new Long256Vector.Long256Shuffle(shuffleArray);
} else if (stype == float.class) {
! return (Shuffle<F>) new Float256Vector.Float256Shuffle(shuffleArray);
} else if (stype == double.class) {
! return (Shuffle<F>) new Double256Vector.Double256Shuffle(shuffleArray);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
@Override
! public Float256Shuffle rearrange(Vector.Shuffle<Float> o) {
Float256Shuffle s = (Float256Shuffle) o;
byte[] r = new byte[reorder.length];
for (int i = 0; i < reorder.length; i++) {
r[i] = reorder[s.reorder[i]];
}
return new Float256Shuffle(r);
}
}
! // Species
@Override
! public Species<Float> species() {
return SPECIES;
}
}
--- 1458,1502 ----
}
@Override
@ForceInline
@SuppressWarnings("unchecked")
! public <F> VectorShuffle<F> cast(VectorSpecies<F> species) {
if (length() != species.length())
throw new IllegalArgumentException("Shuffle length and species length differ");
Class<?> stype = species.elementType();
int [] shuffleArray = toArray();
if (stype == byte.class) {
! return (VectorShuffle<F>) new Byte256Vector.Byte256Shuffle(shuffleArray);
} else if (stype == short.class) {
! return (VectorShuffle<F>) new Short256Vector.Short256Shuffle(shuffleArray);
} else if (stype == int.class) {
! return (VectorShuffle<F>) new Int256Vector.Int256Shuffle(shuffleArray);
} else if (stype == long.class) {
! return (VectorShuffle<F>) new Long256Vector.Long256Shuffle(shuffleArray);
} else if (stype == float.class) {
! return (VectorShuffle<F>) new Float256Vector.Float256Shuffle(shuffleArray);
} else if (stype == double.class) {
! return (VectorShuffle<F>) new Double256Vector.Double256Shuffle(shuffleArray);
} else {
throw new UnsupportedOperationException("Bad lane type for casting.");
}
}
@Override
! public Float256Shuffle rearrange(VectorShuffle<Float> o) {
Float256Shuffle s = (Float256Shuffle) o;
byte[] r = new byte[reorder.length];
for (int i = 0; i < reorder.length; i++) {
r[i] = reorder[s.reorder[i]];
}
return new Float256Shuffle(r);
}
}
! // VectorSpecies
@Override
! public VectorSpecies<Float> species() {
return SPECIES;
}
}
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