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test/jdk/jdk/incubator/vector/DoubleMaxVectorTests.java
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rev 55892 : 8222933: [vector] Test failures after api change in JDK-8222752
Summary: Test failure becaues of renaming get() and getElement() functions to lane() in changeset http://hg.openjdk.java.net/panama/dev/rev/82514a6254e6
Reviewed-by: sviswanathan
*** 979,989 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.lessThan(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] < b[i + j]);
}
}
}
}
--- 979,989 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.lessThan(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] < b[i + j]);
}
}
}
}
*** 999,1009 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.greaterThan(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] > b[i + j]);
}
}
}
}
--- 999,1009 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.greaterThan(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] > b[i + j]);
}
}
}
}
*** 1019,1029 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.equal(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] == b[i + j]);
}
}
}
}
--- 1019,1029 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.equal(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] == b[i + j]);
}
}
}
}
*** 1039,1049 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.notEqual(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] != b[i + j]);
}
}
}
}
--- 1039,1049 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.notEqual(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] != b[i + j]);
}
}
}
}
*** 1059,1069 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.lessThanEq(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] <= b[i + j]);
}
}
}
}
--- 1059,1069 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.lessThanEq(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] <= b[i + j]);
}
}
}
}
*** 1079,1089 ****
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.greaterThanEq(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.getElement(j), a[i + j] >= b[i + j]);
}
}
}
}
--- 1079,1089 ----
DoubleVector bv = DoubleVector.fromArray(SPECIES, b, i);
VectorMask<Double> mv = av.greaterThanEq(bv);
// Check results as part of computation.
for (int j = 0; j < SPECIES.length(); j++) {
! Assert.assertEquals(mv.lane(j), a[i + j] >= b[i + j]);
}
}
}
}
*** 1142,1287 ****
DoubleVector av = DoubleVector.fromArray(SPECIES, a, i);
int num_lanes = SPECIES.length();
// Manually unroll because full unroll happens after intrinsification.
// Unroll is needed because get intrinsic requires for index to be a known constant.
if (num_lanes == 1) {
! r[i]=av.get(0);
} else if (num_lanes == 2) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
} else if (num_lanes == 4) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
! r[i+2]=av.get(2);
! r[i+3]=av.get(3);
} else if (num_lanes == 8) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
! r[i+2]=av.get(2);
! r[i+3]=av.get(3);
! r[i+4]=av.get(4);
! r[i+5]=av.get(5);
! r[i+6]=av.get(6);
! r[i+7]=av.get(7);
} else if (num_lanes == 16) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
! r[i+2]=av.get(2);
! r[i+3]=av.get(3);
! r[i+4]=av.get(4);
! r[i+5]=av.get(5);
! r[i+6]=av.get(6);
! r[i+7]=av.get(7);
! r[i+8]=av.get(8);
! r[i+9]=av.get(9);
! r[i+10]=av.get(10);
! r[i+11]=av.get(11);
! r[i+12]=av.get(12);
! r[i+13]=av.get(13);
! r[i+14]=av.get(14);
! r[i+15]=av.get(15);
} else if (num_lanes == 32) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
! r[i+2]=av.get(2);
! r[i+3]=av.get(3);
! r[i+4]=av.get(4);
! r[i+5]=av.get(5);
! r[i+6]=av.get(6);
! r[i+7]=av.get(7);
! r[i+8]=av.get(8);
! r[i+9]=av.get(9);
! r[i+10]=av.get(10);
! r[i+11]=av.get(11);
! r[i+12]=av.get(12);
! r[i+13]=av.get(13);
! r[i+14]=av.get(14);
! r[i+15]=av.get(15);
! r[i+16]=av.get(16);
! r[i+17]=av.get(17);
! r[i+18]=av.get(18);
! r[i+19]=av.get(19);
! r[i+20]=av.get(20);
! r[i+21]=av.get(21);
! r[i+22]=av.get(22);
! r[i+23]=av.get(23);
! r[i+24]=av.get(24);
! r[i+25]=av.get(25);
! r[i+26]=av.get(26);
! r[i+27]=av.get(27);
! r[i+28]=av.get(28);
! r[i+29]=av.get(29);
! r[i+30]=av.get(30);
! r[i+31]=av.get(31);
} else if (num_lanes == 64) {
! r[i]=av.get(0);
! r[i+1]=av.get(1);
! r[i+2]=av.get(2);
! r[i+3]=av.get(3);
! r[i+4]=av.get(4);
! r[i+5]=av.get(5);
! r[i+6]=av.get(6);
! r[i+7]=av.get(7);
! r[i+8]=av.get(8);
! r[i+9]=av.get(9);
! r[i+10]=av.get(10);
! r[i+11]=av.get(11);
! r[i+12]=av.get(12);
! r[i+13]=av.get(13);
! r[i+14]=av.get(14);
! r[i+15]=av.get(15);
! r[i+16]=av.get(16);
! r[i+17]=av.get(17);
! r[i+18]=av.get(18);
! r[i+19]=av.get(19);
! r[i+20]=av.get(20);
! r[i+21]=av.get(21);
! r[i+22]=av.get(22);
! r[i+23]=av.get(23);
! r[i+24]=av.get(24);
! r[i+25]=av.get(25);
! r[i+26]=av.get(26);
! r[i+27]=av.get(27);
! r[i+28]=av.get(28);
! r[i+29]=av.get(29);
! r[i+30]=av.get(30);
! r[i+31]=av.get(31);
! r[i+32]=av.get(32);
! r[i+33]=av.get(33);
! r[i+34]=av.get(34);
! r[i+35]=av.get(35);
! r[i+36]=av.get(36);
! r[i+37]=av.get(37);
! r[i+38]=av.get(38);
! r[i+39]=av.get(39);
! r[i+40]=av.get(40);
! r[i+41]=av.get(41);
! r[i+42]=av.get(42);
! r[i+43]=av.get(43);
! r[i+44]=av.get(44);
! r[i+45]=av.get(45);
! r[i+46]=av.get(46);
! r[i+47]=av.get(47);
! r[i+48]=av.get(48);
! r[i+49]=av.get(49);
! r[i+50]=av.get(50);
! r[i+51]=av.get(51);
! r[i+52]=av.get(52);
! r[i+53]=av.get(53);
! r[i+54]=av.get(54);
! r[i+55]=av.get(55);
! r[i+56]=av.get(56);
! r[i+57]=av.get(57);
! r[i+58]=av.get(58);
! r[i+59]=av.get(59);
! r[i+60]=av.get(60);
! r[i+61]=av.get(61);
! r[i+62]=av.get(62);
! r[i+63]=av.get(63);
} else {
for (int j = 0; j < SPECIES.length(); j++) {
! r[i+j]=av.get(j);
}
}
}
}
--- 1142,1287 ----
DoubleVector av = DoubleVector.fromArray(SPECIES, a, i);
int num_lanes = SPECIES.length();
// Manually unroll because full unroll happens after intrinsification.
// Unroll is needed because get intrinsic requires for index to be a known constant.
if (num_lanes == 1) {
! r[i]=av.lane(0);
} else if (num_lanes == 2) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
} else if (num_lanes == 4) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
! r[i+2]=av.lane(2);
! r[i+3]=av.lane(3);
} else if (num_lanes == 8) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
! r[i+2]=av.lane(2);
! r[i+3]=av.lane(3);
! r[i+4]=av.lane(4);
! r[i+5]=av.lane(5);
! r[i+6]=av.lane(6);
! r[i+7]=av.lane(7);
} else if (num_lanes == 16) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
! r[i+2]=av.lane(2);
! r[i+3]=av.lane(3);
! r[i+4]=av.lane(4);
! r[i+5]=av.lane(5);
! r[i+6]=av.lane(6);
! r[i+7]=av.lane(7);
! r[i+8]=av.lane(8);
! r[i+9]=av.lane(9);
! r[i+10]=av.lane(10);
! r[i+11]=av.lane(11);
! r[i+12]=av.lane(12);
! r[i+13]=av.lane(13);
! r[i+14]=av.lane(14);
! r[i+15]=av.lane(15);
} else if (num_lanes == 32) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
! r[i+2]=av.lane(2);
! r[i+3]=av.lane(3);
! r[i+4]=av.lane(4);
! r[i+5]=av.lane(5);
! r[i+6]=av.lane(6);
! r[i+7]=av.lane(7);
! r[i+8]=av.lane(8);
! r[i+9]=av.lane(9);
! r[i+10]=av.lane(10);
! r[i+11]=av.lane(11);
! r[i+12]=av.lane(12);
! r[i+13]=av.lane(13);
! r[i+14]=av.lane(14);
! r[i+15]=av.lane(15);
! r[i+16]=av.lane(16);
! r[i+17]=av.lane(17);
! r[i+18]=av.lane(18);
! r[i+19]=av.lane(19);
! r[i+20]=av.lane(20);
! r[i+21]=av.lane(21);
! r[i+22]=av.lane(22);
! r[i+23]=av.lane(23);
! r[i+24]=av.lane(24);
! r[i+25]=av.lane(25);
! r[i+26]=av.lane(26);
! r[i+27]=av.lane(27);
! r[i+28]=av.lane(28);
! r[i+29]=av.lane(29);
! r[i+30]=av.lane(30);
! r[i+31]=av.lane(31);
} else if (num_lanes == 64) {
! r[i]=av.lane(0);
! r[i+1]=av.lane(1);
! r[i+2]=av.lane(2);
! r[i+3]=av.lane(3);
! r[i+4]=av.lane(4);
! r[i+5]=av.lane(5);
! r[i+6]=av.lane(6);
! r[i+7]=av.lane(7);
! r[i+8]=av.lane(8);
! r[i+9]=av.lane(9);
! r[i+10]=av.lane(10);
! r[i+11]=av.lane(11);
! r[i+12]=av.lane(12);
! r[i+13]=av.lane(13);
! r[i+14]=av.lane(14);
! r[i+15]=av.lane(15);
! r[i+16]=av.lane(16);
! r[i+17]=av.lane(17);
! r[i+18]=av.lane(18);
! r[i+19]=av.lane(19);
! r[i+20]=av.lane(20);
! r[i+21]=av.lane(21);
! r[i+22]=av.lane(22);
! r[i+23]=av.lane(23);
! r[i+24]=av.lane(24);
! r[i+25]=av.lane(25);
! r[i+26]=av.lane(26);
! r[i+27]=av.lane(27);
! r[i+28]=av.lane(28);
! r[i+29]=av.lane(29);
! r[i+30]=av.lane(30);
! r[i+31]=av.lane(31);
! r[i+32]=av.lane(32);
! r[i+33]=av.lane(33);
! r[i+34]=av.lane(34);
! r[i+35]=av.lane(35);
! r[i+36]=av.lane(36);
! r[i+37]=av.lane(37);
! r[i+38]=av.lane(38);
! r[i+39]=av.lane(39);
! r[i+40]=av.lane(40);
! r[i+41]=av.lane(41);
! r[i+42]=av.lane(42);
! r[i+43]=av.lane(43);
! r[i+44]=av.lane(44);
! r[i+45]=av.lane(45);
! r[i+46]=av.lane(46);
! r[i+47]=av.lane(47);
! r[i+48]=av.lane(48);
! r[i+49]=av.lane(49);
! r[i+50]=av.lane(50);
! r[i+51]=av.lane(51);
! r[i+52]=av.lane(52);
! r[i+53]=av.lane(53);
! r[i+54]=av.lane(54);
! r[i+55]=av.lane(55);
! r[i+56]=av.lane(56);
! r[i+57]=av.lane(57);
! r[i+58]=av.lane(58);
! r[i+59]=av.lane(59);
! r[i+60]=av.lane(60);
! r[i+61]=av.lane(61);
! r[i+62]=av.lane(62);
! r[i+63]=av.lane(63);
} else {
for (int j = 0; j < SPECIES.length(); j++) {
! r[i+j]=av.lane(j);
}
}
}
}
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