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/*
* Copyright (c) 2025, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package compiler.vectorapi;
import compiler.lib.ir_framework.*;
import compiler.lib.verify.*;
import java.util.Random;
import jdk.incubator.vector.*;
import jdk.test.lib.Utils;
/**
* @test
* @bug 8342393
* @key randomness
* @library /test/lib /
* @summary Promote vector IR node sharing
* @modules jdk.incubator.vector
*
* @run driver compiler.vectorapi.VectorCommutativeOperSharingTest
*/
public class VectorCommutativeOperSharingTest {
private static final VectorSpecies<Integer> I_SPECIES = IntVector.SPECIES_PREFERRED;
private static int LENGTH = 128;
private static final Random RD = Utils.getRandomInstance();
private static int[] ia;
private static int[] ib;
private static int[] ir1;
private static int[] ir2;
private static int[] ir3;
private static int[] ir4;
static {
ia = new int[LENGTH];
ib = new int[LENGTH];
ir1 = new int[LENGTH];
ir2 = new int[LENGTH];
ir3 = new int[LENGTH];
ir4 = new int[LENGTH];
for (int i = 0; i < LENGTH; i++) {
ia[i] = RD.nextInt(Integer.MAX_VALUE);
ib[i] = RD.nextInt(Integer.MAX_VALUE);
}
}
public static void main(String[] args) {
TestFramework.runWithFlags("--add-modules=jdk.incubator.vector");
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 ",
IRNode.MUL_VI, IRNode.VECTOR_SIZE_ANY, " 2 ",
IRNode.MAX_VI, IRNode.VECTOR_SIZE_ANY, " 2 ",
IRNode.MIN_VI, IRNode.VECTOR_SIZE_ANY, " 2 "},
applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing1(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
vec1.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
vec1.lanewise(VectorOperators.MUL, vec2)
.lanewise(VectorOperators.MUL, vec2.lanewise(VectorOperators.MUL, vec1))
.intoArray(ir2, index);
vec1.lanewise(VectorOperators.MAX, vec2)
.lanewise(VectorOperators.MAX, vec2.lanewise(VectorOperators.MAX, vec1))
.intoArray(ir3, index);
vec1.lanewise(VectorOperators.MIN, vec2)
.lanewise(VectorOperators.MIN, vec2.lanewise(VectorOperators.MIN, vec1))
.intoArray(ir4, index);
}
@Run(test = "testVectorIRSharing1")
public void testVectorIRSharingDriver1() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing1(i);
}
checkVectorIRSharing1();
}
public void checkVectorIRSharing1() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ib[i]) + (ib[i] + ia[i]));
Verify.checkEQ(ir2[i], (ia[i] * ib[i]) * (ib[i] * ia[i]));
Verify.checkEQ(ir3[i], Integer.max(Integer.max(ia[i], ib[i]), Integer.max(ib[i], ia[i])));
Verify.checkEQ(ir4[i], Integer.min(Integer.max(ia[i], ib[i]), Integer.min(ib[i], ia[i])));
}
}
@Test
@IR(counts = {IRNode.XOR_VI, IRNode.VECTOR_SIZE_ANY, " 0 ",
IRNode.OR_VI, IRNode.VECTOR_SIZE_ANY, " 1 ",
IRNode.AND_VI, IRNode.VECTOR_SIZE_ANY, " 1 "},
applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing2(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
vec1.lanewise(VectorOperators.XOR, vec2)
.lanewise(VectorOperators.XOR, vec2.lanewise(VectorOperators.XOR, vec1))
.intoArray(ir1, index);
vec1.lanewise(VectorOperators.AND, vec2)
.lanewise(VectorOperators.AND, vec2.lanewise(VectorOperators.AND, vec1))
.intoArray(ir2, index);
vec1.lanewise(VectorOperators.OR, vec2)
.lanewise(VectorOperators.OR, vec2.lanewise(VectorOperators.OR, vec1))
.intoArray(ir3, index);
}
@Run(test = "testVectorIRSharing2")
public void testVectorIRSharingDriver2() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing2(i);
}
checkVectorIRSharing2();
}
public void checkVectorIRSharing2() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] ^ ib[i]) ^ (ib[i] ^ ia[i]));
Verify.checkEQ(ir2[i], (ia[i] & ib[i]) & (ib[i] & ia[i]));
Verify.checkEQ(ir3[i], (ia[i] | ib[i]) | (ib[i] | ia[i]));
}
}
@Test
@IR(counts = {IRNode.SATURATING_ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "},
applyIfCPUFeatureOr = {"avx2", "true", "rvv", "true"})
public void testVectorIRSharing3(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
vec1.lanewise(VectorOperators.SADD, vec2)
.lanewise(VectorOperators.SADD, vec2.lanewise(VectorOperators.SADD, vec1))
.intoArray(ir4, index);
}
@Run(test = "testVectorIRSharing3")
public void testVectorIRSharingDriver3() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing3(i);
}
checkVectorIRSharing3();
}
public void checkVectorIRSharing3() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir4[i], VectorMath.addSaturating(VectorMath.addSaturating(ia[i], ib[i]),
VectorMath.addSaturating(ib[i], ia[i])));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing4(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec1) + (vec1 + vec1)
vec1.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing4")
public void testVectorIRSharingDriver4() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing4(i);
}
checkVectorIRSharing4();
}
public void checkVectorIRSharing4() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ia[i]) + (ia[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing5(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec1) + (vec1 + vec2)
vec1.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing5")
public void testVectorIRSharingDriver5() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing5(i);
}
checkVectorIRSharing5();
}
public void checkVectorIRSharing5() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ia[i]) + (ia[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing6(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec1) + (vec2 + vec1)
vec1.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing6")
public void testVectorIRSharingDriver6() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing6(i);
}
checkVectorIRSharing6();
}
public void checkVectorIRSharing6() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ia[i]) + (ib[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing7(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec1) + (vec2 + vec2)
vec1.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing7")
public void testVectorIRSharingDriver7() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing7(i);
}
checkVectorIRSharing7();
}
public void checkVectorIRSharing7() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ia[i]) + (ib[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing8(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec2) + (vec1 + vec1)
vec1.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing8")
public void testVectorIRSharingDriver8() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing8(i);
}
checkVectorIRSharing8();
}
public void checkVectorIRSharing8() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ib[i]) + (ia[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing9(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec2) + (vec1 + vec2)
vec1.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing9")
public void testVectorIRSharingDriver9() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing9(i);
}
checkVectorIRSharing9();
}
public void checkVectorIRSharing9() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ib[i]) + (ia[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing10(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec2) + (vec2 + vec1)
vec1.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing10")
public void testVectorIRSharingDriver10() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing10(i);
}
checkVectorIRSharing10();
}
public void checkVectorIRSharing10() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ib[i]) + (ib[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing11(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec1 + vec2) + (vec2 + vec2)
vec1.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing11")
public void testVectorIRSharingDriver11() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing11(i);
}
checkVectorIRSharing11();
}
public void checkVectorIRSharing11() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ia[i] + ib[i]) + (ib[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing12(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec1) + (vec1 + vec1)
vec2.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing12")
public void testVectorIRSharingDriver12() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing12(i);
}
checkVectorIRSharing12();
}
public void checkVectorIRSharing12() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ia[i]) + (ia[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing13(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec1) + (vec1 + vec2)
vec2.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing13")
public void testVectorIRSharingDriver13() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing13(i);
}
checkVectorIRSharing13();
}
public void checkVectorIRSharing13() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ia[i]) + (ia[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 2 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing14(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec1) + (vec2 + vec1)
vec2.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing14")
public void testVectorIRSharingDriver14() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing14(i);
}
checkVectorIRSharing14();
}
public void checkVectorIRSharing14() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ia[i]) + (ib[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing15(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec1) + (vec2 + vec2)
vec2.lanewise(VectorOperators.ADD, vec1)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing15")
public void testVectorIRSharingDriver15() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing15(i);
}
checkVectorIRSharing15();
}
public void checkVectorIRSharing15() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ia[i]) + (ib[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing16(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec2) + (vec1 + vec1)
vec2.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing16")
public void testVectorIRSharingDriver16() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing16(i);
}
checkVectorIRSharing16();
}
public void checkVectorIRSharing16() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ib[i]) + (ia[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing17(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec2) + (vec1 + vec2)
vec2.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec1.lanewise(VectorOperators.ADD, vec2))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing17")
public void testVectorIRSharingDriver17() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing17(i);
}
checkVectorIRSharing17();
}
public void checkVectorIRSharing17() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ib[i]) + (ia[i] + ib[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing18(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// (vec2 + vec2) + (vec2 + vec1)
vec2.lanewise(VectorOperators.ADD, vec2)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing18")
public void testVectorIRSharingDriver18() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing18(i);
}
checkVectorIRSharing18();
}
public void checkVectorIRSharing18() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], (ib[i] + ib[i]) + (ib[i] + ia[i]));
}
}
@Test
@IR(counts = {IRNode.ADD_VI, IRNode.VECTOR_SIZE_ANY, " 3 "}, applyIfCPUFeatureOr = {"avx512vl", "true", "sve", "true", "rvv", "true"})
public void testVectorIRSharing19(int index) {
VectorMask<Integer> VMASK = VectorMask.fromLong(I_SPECIES, ((1 << 4) - 1));
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// PRED:(vec1 + vec2) + PRED:(vec2 + vec1)
vec1.lanewise(VectorOperators.ADD, vec2, VMASK)
.lanewise(VectorOperators.ADD, vec2.lanewise(VectorOperators.ADD, vec1, VMASK))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing19")
public void testVectorIRSharingDriver19() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing19(i);
}
checkVectorIRSharing19();
}
public void checkVectorIRSharing19() {
VectorMask<Integer> VMASK = VectorMask.fromLong(I_SPECIES, ((1 << 4) - 1));
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
boolean mask = VMASK.laneIsSet(i & (I_SPECIES.length() - 1));
Verify.checkEQ(ir1[i], (mask ? ia[i] + ib[i] : ia[i]) + (mask ? ib[i] + ia[i] : ib[i]));
}
}
@Test
@IR(counts = {IRNode.UMAX_VI, IRNode.VECTOR_SIZE_ANY, " 1 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing20(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// UMax ((UMax vec1, vec2), (UMax vec2, vec1))
vec1.lanewise(VectorOperators.UMAX, vec2)
.lanewise(VectorOperators.UMAX, vec2.lanewise(VectorOperators.UMAX, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing20")
public void testVectorIRSharingDriver20() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing20(i);
}
checkVectorIRSharing20();
}
public void checkVectorIRSharing20() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], VectorMath.maxUnsigned(ia[i], ib[i]));
}
}
@Test
@IR(counts = {IRNode.UMIN_VI, IRNode.VECTOR_SIZE_ANY, " 1 "}, applyIfCPUFeatureOr = {"avx", "true", "rvv", "true"})
public void testVectorIRSharing21(int index) {
IntVector vec1 = IntVector.fromArray(I_SPECIES, ia, index);
IntVector vec2 = IntVector.fromArray(I_SPECIES, ib, index);
// UMin ((UMin vec1, vec2), (UMin vec2, vec1))
vec1.lanewise(VectorOperators.UMIN, vec2)
.lanewise(VectorOperators.UMIN, vec2.lanewise(VectorOperators.UMIN, vec1))
.intoArray(ir1, index);
}
@Run(test = "testVectorIRSharing21")
public void testVectorIRSharingDriver21() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i += I_SPECIES.length()) {
testVectorIRSharing21(i);
}
checkVectorIRSharing21();
}
public void checkVectorIRSharing21() {
for (int i = 0; i < I_SPECIES.loopBound(LENGTH); i++) {
Verify.checkEQ(ir1[i], VectorMath.minUnsigned(ia[i], ib[i]));
}
}
}
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