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PrimitiveStampBoundaryTest.java
/*
* Copyright (c) 2012, 2019, 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 org.graalvm.compiler.nodes.test;
import java.util.EnumSet;
import java.util.HashSet;
import org.graalvm.compiler.core.common.calc.FloatConvert;
import org.graalvm.compiler.core.common.calc.FloatConvertCategory;
import org.graalvm.compiler.core.common.type.ArithmeticOpTable;
import org.graalvm.compiler.core.common.type.ArithmeticOpTable.BinaryOp;
import org.graalvm.compiler.core.common.type.ArithmeticOpTable.IntegerConvertOp;
import org.graalvm.compiler.core.common.type.ArithmeticOpTable.ShiftOp;
import org.graalvm.compiler.core.common.type.FloatStamp;
import org.graalvm.compiler.core.common.type.IntegerStamp;
import org.graalvm.compiler.core.common.type.PrimitiveStamp;
import org.graalvm.compiler.core.common.type.Stamp;
import org.graalvm.compiler.core.common.type.StampFactory;
import org.graalvm.compiler.test.GraalTest;
import org.junit.Test;
import jdk.vm.ci.meta.Constant;
import jdk.vm.ci.meta.JavaConstant;
import jdk.vm.ci.meta.JavaKind;
/**
* Exercise the various stamp folding operations by generating ranges from a set of boundary values
* and then ensuring that the values that produced those ranges are in the resulting stamp.
*/
public class PrimitiveStampBoundaryTest extends GraalTest {
static long[] longBoundaryValues = {Long.MIN_VALUE, Long.MIN_VALUE + 1, Integer.MIN_VALUE, Integer.MIN_VALUE + 1, -1, 0, 1, Integer.MAX_VALUE - 1, Integer.MAX_VALUE, Long.MAX_VALUE - 1,
Long.MAX_VALUE};
static int[] shiftBoundaryValues = {-128, -1, 0, 1, 4, 8, 16, 31, 63, 128};
static HashSet<IntegerStamp> shiftStamps;
static HashSet<PrimitiveStamp> integerTestStamps;
static HashSet<PrimitiveStamp> floatTestStamps;
static {
shiftStamps = new HashSet<>();
for (long v1 : shiftBoundaryValues) {
for (long v2 : shiftBoundaryValues) {
shiftStamps.add(IntegerStamp.create(32, Math.min(v1, v2), Math.max(v1, v2)));
}
}
shiftStamps.add((IntegerStamp) StampFactory.empty(JavaKind.Int));
integerTestStamps = new HashSet<>();
for (long v1 : longBoundaryValues) {
for (long v2 : longBoundaryValues) {
if (v2 == (int) v2 && v1 == (int) v1) {
integerTestStamps.add(IntegerStamp.create(32, Math.min(v1, v2), Math.max(v1, v2)));
}
integerTestStamps.add(IntegerStamp.create(64, Math.min(v1, v2), Math.max(v1, v2)));
}
}
integerTestStamps.add((PrimitiveStamp) StampFactory.empty(JavaKind.Int));
integerTestStamps.add((PrimitiveStamp) StampFactory.empty(JavaKind.Long));
}
static double[] doubleBoundaryValues = {Double.NEGATIVE_INFINITY, Double.MIN_VALUE, Float.NEGATIVE_INFINITY, Float.MIN_VALUE,
Long.MIN_VALUE, Long.MIN_VALUE + 1, Integer.MIN_VALUE, Integer.MIN_VALUE + 1, -1, -0.0, +0.0, 1,
Integer.MAX_VALUE - 1, Integer.MAX_VALUE, Long.MAX_VALUE - 1, Long.MAX_VALUE,
Float.MAX_VALUE, Float.POSITIVE_INFINITY, Double.MAX_VALUE, Double.POSITIVE_INFINITY};
static double[] doubleSpecialValues = {Double.NaN, -0.0, -0.0F, Float.NaN};
static {
floatTestStamps = new HashSet<>();
for (double d1 : doubleBoundaryValues) {
for (double d2 : doubleBoundaryValues) {
float f1 = (float) d2;
float f2 = (float) d1;
if (d2 == f1 && d1 == f2) {
generateFloatingStamps(new FloatStamp(32, Math.min(f2, f1), Math.max(f2, f1), true));
generateFloatingStamps(new FloatStamp(32, Math.min(f2, f1), Math.max(f2, f1), false));
}
generateFloatingStamps(new FloatStamp(64, Math.min(d1, d2), Math.max(d1, d2), true));
generateFloatingStamps(new FloatStamp(64, Math.min(d1, d2), Math.max(d1, d2), false));
}
}
floatTestStamps.add((PrimitiveStamp) StampFactory.empty(JavaKind.Float));
floatTestStamps.add((PrimitiveStamp) StampFactory.empty(JavaKind.Double));
}
private static void generateFloatingStamps(FloatStamp floatStamp) {
floatTestStamps.add(floatStamp);
for (double d : doubleSpecialValues) {
FloatStamp newStamp = (FloatStamp) floatStamp.meet(floatStampForConstant(d, floatStamp.getBits()));
if (!newStamp.isUnrestricted()) {
floatTestStamps.add(newStamp);
}
}
}
@Test
public void testConvertBoundaryValues() {
testConvertBoundaryValues(IntegerStamp.OPS.getSignExtend(), 32, 64, integerTestStamps);
testConvertBoundaryValues(IntegerStamp.OPS.getZeroExtend(), 32, 64, integerTestStamps);
testConvertBoundaryValues(IntegerStamp.OPS.getNarrow(), 64, 32, integerTestStamps);
}
private static void testConvertBoundaryValues(IntegerConvertOp<?> op, int inputBits, int resultBits, HashSet<PrimitiveStamp> stamps) {
for (PrimitiveStamp stamp : stamps) {
if (inputBits == stamp.getBits()) {
Stamp lower = boundaryStamp(stamp, false);
Stamp upper = boundaryStamp(stamp, true);
checkConvertOperation(op, inputBits, resultBits, op.foldStamp(inputBits, resultBits, stamp), lower);
checkConvertOperation(op, inputBits, resultBits, op.foldStamp(inputBits, resultBits, stamp), upper);
}
}
}
private static void checkConvertOperation(IntegerConvertOp<?> op, int inputBits, int resultBits, Stamp result, Stamp v1stamp) {
Stamp folded = op.foldStamp(inputBits, resultBits, v1stamp);
assertTrue(folded.isEmpty() || folded.asConstant() != null, "should constant fold %s %s %s", op, v1stamp, folded);
assertTrue(result.meet(folded).equals(result), "result out of range %s %s %s %s %s", op, v1stamp, folded, result, result.meet(folded));
}
@Test
public void testFloatConvertBoundaryValues() {
for (FloatConvert op : EnumSet.allOf(FloatConvert.class)) {
ArithmeticOpTable.FloatConvertOp floatConvert = IntegerStamp.OPS.getFloatConvert(op);
if (floatConvert == null) {
continue;
}
assert op.getCategory() == FloatConvertCategory.IntegerToFloatingPoint : op;
testConvertBoundaryValues(floatConvert, op.getInputBits(), integerTestStamps);
}
for (FloatConvert op : EnumSet.allOf(FloatConvert.class)) {
ArithmeticOpTable.FloatConvertOp floatConvert = FloatStamp.OPS.getFloatConvert(op);
if (floatConvert == null) {
continue;
}
assert op.getCategory() == FloatConvertCategory.FloatingPointToInteger || op.getCategory() == FloatConvertCategory.FloatingPointToFloatingPoint : op;
testConvertBoundaryValues(floatConvert, op.getInputBits(), floatTestStamps);
}
}
private static void testConvertBoundaryValues(ArithmeticOpTable.FloatConvertOp op, int bits, HashSet<PrimitiveStamp> stamps) {
for (PrimitiveStamp stamp : stamps) {
if (bits == stamp.getBits()) {
Stamp lower = boundaryStamp(stamp, false);
Stamp upper = boundaryStamp(stamp, true);
checkConvertOperation(op, op.foldStamp(stamp), lower);
checkConvertOperation(op, op.foldStamp(stamp), upper);
}
}
}
static void shouldConstantFold(boolean b, Stamp folded, Object o, Stamp s1) {
assertTrue(b || (folded instanceof FloatStamp && ((FloatStamp) folded).contains(0.0)), "should constant fold %s %s %s", o, s1, folded);
}
private static boolean constantFloatStampMayIncludeNegativeZero(Stamp s) {
if (s instanceof FloatStamp) {
FloatStamp f = (FloatStamp) s;
return Double.compare(f.lowerBound(), f.upperBound()) == 0 && f.isNonNaN();
}
return false;
}
private static void checkConvertOperation(ArithmeticOpTable.FloatConvertOp op, Stamp result, Stamp v1stamp) {
Stamp folded = op.foldStamp(v1stamp);
shouldConstantFold(folded.isEmpty() || folded.asConstant() != null, folded, op, v1stamp);
assertTrue(result.meet(folded).equals(result), "result out of range %s %s %s %s %s", op, v1stamp, folded, result, result.meet(folded));
}
@Test
public void testShiftBoundaryValues() {
for (ShiftOp<?> op : IntegerStamp.OPS.getShiftOps()) {
testShiftBoundaryValues(op, integerTestStamps, shiftStamps);
}
}
private static void testShiftBoundaryValues(ShiftOp<?> shiftOp, HashSet<PrimitiveStamp> stamps, HashSet<IntegerStamp> shifts) {
for (PrimitiveStamp testStamp : stamps) {
if (testStamp instanceof IntegerStamp) {
IntegerStamp stamp = (IntegerStamp) testStamp;
for (IntegerStamp shiftStamp : shifts) {
IntegerStamp foldedStamp = (IntegerStamp) shiftOp.foldStamp(stamp, shiftStamp);
if (foldedStamp.isEmpty()) {
assertTrue(stamp.isEmpty() || shiftStamp.isEmpty());
continue;
}
checkShiftOperation(stamp.getBits(), shiftOp, foldedStamp, stamp.lowerBound(), shiftStamp.lowerBound());
checkShiftOperation(stamp.getBits(), shiftOp, foldedStamp, stamp.lowerBound(), shiftStamp.upperBound());
checkShiftOperation(stamp.getBits(), shiftOp, foldedStamp, stamp.upperBound(), shiftStamp.lowerBound());
checkShiftOperation(stamp.getBits(), shiftOp, foldedStamp, stamp.upperBound(), shiftStamp.upperBound());
}
}
}
}
private static void checkShiftOperation(int bits, ShiftOp<?> op, IntegerStamp result, long v1, long v2) {
IntegerStamp v1stamp = IntegerStamp.create(bits, v1, v1);
IntegerStamp v2stamp = IntegerStamp.create(32, v2, v2);
IntegerStamp folded = (IntegerStamp) op.foldStamp(v1stamp, v2stamp);
Constant constant = op.foldConstant(JavaConstant.forPrimitiveInt(bits, v1), (int) v2);
assertTrue(constant != null);
assertTrue(folded.asConstant() != null, "should constant fold %s %s %s %s", op, v1stamp, v2stamp, folded);
assertTrue(result.meet(folded).equals(result), "result out of range %s %s %s %s %s %s", op, v1stamp, v2stamp, folded, result, result.meet(folded));
}
private static void checkBinaryOperation(ArithmeticOpTable.BinaryOp<?> op, Stamp result, Stamp v1stamp, Stamp v2stamp) {
if (constantFloatStampMayIncludeNegativeZero(v1stamp) || constantFloatStampMayIncludeNegativeZero(v2stamp)) {
return;
}
Stamp folded = op.foldStamp(v1stamp, v2stamp);
if (v1stamp.isEmpty() || v2stamp.isEmpty()) {
assertTrue(folded.isEmpty());
assertTrue(v1stamp.asConstant() != null || v1stamp.isEmpty());
assertTrue(v2stamp.asConstant() != null || v2stamp.isEmpty());
return;
}
Constant constant = op.foldConstant(v1stamp.asConstant(), v2stamp.asConstant());
if (constant != null) {
assertFalse(folded.isEmpty());
Constant constant2 = folded.asConstant();
if (constant2 == null && v1stamp instanceof FloatStamp) {
JavaConstant c = (JavaConstant) constant;
assertTrue((c.getJavaKind() == JavaKind.Double && Double.isNaN(c.asDouble())) ||
(c.getJavaKind() == JavaKind.Float && Float.isNaN(c.asFloat())));
} else {
assertTrue(constant2 != null, "should constant fold %s %s %s %s", op, v1stamp, v2stamp, folded);
if (!constant.equals(constant2)) {
op.foldConstant(v1stamp.asConstant(), v2stamp.asConstant());
op.foldStamp(v1stamp, v2stamp);
}
assertTrue(constant.equals(constant2), "should produce same constant %s %s %s %s %s", op, v1stamp, v2stamp, constant, constant2);
}
assertTrue(result.meet(folded).equals(result), "result out of range %s %s %s %s %s %s", op, v1stamp, v2stamp, folded, result, result.meet(folded));
}
}
@Test
public void testBinaryBoundaryValues() {
for (BinaryOp<?> op : IntegerStamp.OPS.getBinaryOps()) {
if (op != null) {
testBinaryBoundaryValues(op, integerTestStamps);
}
}
for (BinaryOp<?> op : FloatStamp.OPS.getBinaryOps()) {
if (op != null) {
testBinaryBoundaryValues(op, floatTestStamps);
}
}
}
private static Stamp boundaryStamp(Stamp v1, boolean upper) {
if (v1.isEmpty()) {
return v1;
}
if (v1 instanceof IntegerStamp) {
IntegerStamp istamp = (IntegerStamp) v1;
long bound = upper ? istamp.upperBound() : istamp.lowerBound();
return IntegerStamp.create(istamp.getBits(), bound, bound);
} else if (v1 instanceof FloatStamp) {
FloatStamp floatStamp = (FloatStamp) v1;
double bound = upper ? floatStamp.upperBound() : floatStamp.lowerBound();
int bits = floatStamp.getBits();
return floatStampForConstant(bound, bits);
} else {
throw new InternalError("unexpected stamp type " + v1);
}
}
private static FloatStamp floatStampForConstant(double bound, int bits) {
if (bits == 32) {
float fbound = (float) bound;
return new FloatStamp(bits, fbound, fbound, !Float.isNaN(fbound));
} else {
return new FloatStamp(bits, bound, bound, !Double.isNaN(bound));
}
}
private static void testBinaryBoundaryValues(ArithmeticOpTable.BinaryOp<?> op, HashSet<PrimitiveStamp> stamps) {
for (PrimitiveStamp v1 : stamps) {
for (PrimitiveStamp v2 : stamps) {
if (v1.getBits() == v2.getBits() && v1.getClass() == v2.getClass()) {
Stamp result = op.foldStamp(v1, v2);
Stamp v1lower = boundaryStamp(v1, false);
Stamp v1upper = boundaryStamp(v1, true);
Stamp v2lower = boundaryStamp(v2, false);
Stamp v2upper = boundaryStamp(v2, true);
checkBinaryOperation(op, result, v1lower, v2lower);
checkBinaryOperation(op, result, v1lower, v2upper);
checkBinaryOperation(op, result, v1upper, v2lower);
checkBinaryOperation(op, result, v1upper, v2upper);
}
}
}
}
@Test
public void testUnaryBoundaryValues() {
for (ArithmeticOpTable.UnaryOp<?> op : IntegerStamp.OPS.getUnaryOps()) {
if (op != null) {
testUnaryBoundaryValues(op, integerTestStamps);
}
}
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