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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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
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 * 2 along with this work; if not, write to the Free Software Foundation,
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package org.graalvm.compiler.nodes.calc;

import jdk.vm.ci.meta.ConstantReflectionProvider;
import jdk.vm.ci.meta.MetaAccessProvider;
import org.graalvm.compiler.core.common.calc.Condition;
import org.graalvm.compiler.core.common.type.IntegerStamp;
import org.graalvm.compiler.core.common.type.Stamp;
import org.graalvm.compiler.graph.NodeClass;
import org.graalvm.compiler.nodeinfo.NodeInfo;
import org.graalvm.compiler.nodes.ConstantNode;
import org.graalvm.compiler.nodes.LogicConstantNode;
import org.graalvm.compiler.nodes.LogicNegationNode;
import org.graalvm.compiler.nodes.LogicNode;
import org.graalvm.compiler.nodes.NodeView;
import org.graalvm.compiler.nodes.ValueNode;
import org.graalvm.compiler.nodes.util.GraphUtil;

import jdk.vm.ci.meta.TriState;
import org.graalvm.compiler.options.OptionValues;

Common super-class for "a < b" comparisons both signed and unsigned.
/** * Common super-class for "a < b" comparisons both {@linkplain IntegerLowerThanNode signed} and * {@linkplain IntegerBelowNode unsigned}. */
@NodeInfo() public abstract class IntegerLowerThanNode extends CompareNode { public static final NodeClass<IntegerLowerThanNode> TYPE = NodeClass.create(IntegerLowerThanNode.class); private final LowerOp op; protected IntegerLowerThanNode(NodeClass<? extends CompareNode> c, ValueNode x, ValueNode y, LowerOp op) { super(c, op.getCondition(), false, x, y); this.op = op; } protected LowerOp getOp() { return op; } @Override public Stamp getSucceedingStampForX(boolean negated, Stamp xStampGeneric, Stamp yStampGeneric) { return getSucceedingStampForX(negated, !negated, xStampGeneric, yStampGeneric, getX(), getY()); } @Override public Stamp getSucceedingStampForY(boolean negated, Stamp xStampGeneric, Stamp yStampGeneric) { return getSucceedingStampForX(!negated, !negated, yStampGeneric, xStampGeneric, getY(), getX()); } private Stamp getSucceedingStampForX(boolean mirror, boolean strict, Stamp xStampGeneric, Stamp yStampGeneric, ValueNode forX, ValueNode forY) { Stamp s = getSucceedingStampForX(mirror, strict, xStampGeneric, yStampGeneric); if (s != null) { return s; } if (forY instanceof AddNode && xStampGeneric instanceof IntegerStamp) { IntegerStamp xStamp = (IntegerStamp) xStampGeneric; AddNode addNode = (AddNode) forY; IntegerStamp aStamp = null; if (addNode.getX() == forX && addNode.getY().stamp(NodeView.DEFAULT) instanceof IntegerStamp) { // x < x + a aStamp = (IntegerStamp) addNode.getY().stamp(NodeView.DEFAULT); } else if (addNode.getY() == forX && addNode.getX().stamp(NodeView.DEFAULT) instanceof IntegerStamp) { // x < a + x aStamp = (IntegerStamp) addNode.getX().stamp(NodeView.DEFAULT); } if (aStamp != null) { IntegerStamp result = getOp().getSucceedingStampForXLowerXPlusA(mirror, strict, aStamp); result = (IntegerStamp) xStamp.tryImproveWith(result); if (result != null) { return result; } } } return null; } private Stamp getSucceedingStampForX(boolean mirror, boolean strict, Stamp xStampGeneric, Stamp yStampGeneric) { if (xStampGeneric instanceof IntegerStamp) { IntegerStamp xStamp = (IntegerStamp) xStampGeneric; if (yStampGeneric instanceof IntegerStamp) { IntegerStamp yStamp = (IntegerStamp) yStampGeneric; assert yStamp.getBits() == xStamp.getBits(); Stamp s = getOp().getSucceedingStampForX(xStamp, yStamp, mirror, strict); if (s != null) { return s; } } } return null; } @Override public TriState tryFold(Stamp xStampGeneric, Stamp yStampGeneric) { return getOp().tryFold(xStampGeneric, yStampGeneric); } public abstract static class LowerOp extends CompareOp { @Override public LogicNode canonical(ConstantReflectionProvider constantReflection, MetaAccessProvider metaAccess, OptionValues options, Integer smallestCompareWidth, Condition condition, boolean unorderedIsTrue, ValueNode forX, ValueNode forY, NodeView view) { LogicNode result = super.canonical(constantReflection, metaAccess, options, smallestCompareWidth, condition, unorderedIsTrue, forX, forY, view); if (result != null) { return result; } LogicNode synonym = findSynonym(forX, forY, view); if (synonym != null) { return synonym; } return null; } protected abstract long upperBound(IntegerStamp stamp); protected abstract long lowerBound(IntegerStamp stamp); protected abstract int compare(long a, long b); protected abstract long min(long a, long b); protected abstract long max(long a, long b); protected long min(long a, long b, int bits) { return min(cast(a, bits), cast(b, bits)); } protected long max(long a, long b, int bits) { return max(cast(a, bits), cast(b, bits)); } protected abstract long cast(long a, int bits); protected abstract long minValue(int bits); protected abstract long maxValue(int bits); protected abstract IntegerStamp forInteger(int bits, long min, long max); protected abstract Condition getCondition(); protected abstract IntegerLowerThanNode createNode(ValueNode x, ValueNode y); public LogicNode create(ValueNode x, ValueNode y, NodeView view) { LogicNode result = CompareNode.tryConstantFoldPrimitive(getCondition(), x, y, false, view); if (result != null) { return result; } else { result = findSynonym(x, y, view); if (result != null) { return result; } return createNode(x, y); } } protected LogicNode findSynonym(ValueNode forX, ValueNode forY, NodeView view) { if (GraphUtil.unproxify(forX) == GraphUtil.unproxify(forY)) { return LogicConstantNode.contradiction(); } TriState fold = tryFold(forX.stamp(view), forY.stamp(view)); if (fold.isTrue()) { return LogicConstantNode.tautology(); } else if (fold.isFalse()) { return LogicConstantNode.contradiction(); } if (forY.stamp(view) instanceof IntegerStamp) { IntegerStamp yStamp = (IntegerStamp) forY.stamp(view); int bits = yStamp.getBits(); if (forX.isJavaConstant() && !forY.isConstant()) { // bring the constant on the right long xValue = forX.asJavaConstant().asLong(); if (xValue != maxValue(bits)) { // c < x <=> !(c >= x) <=> !(x <= c) <=> !(x < c + 1) return LogicNegationNode.create(create(forY, ConstantNode.forIntegerStamp(yStamp, xValue + 1), view)); } } if (forY.isJavaConstant()) { long yValue = forY.asJavaConstant().asLong(); if (yValue == maxValue(bits)) { // x < MAX <=> x != MAX return LogicNegationNode.create(IntegerEqualsNode.create(forX, forY, view)); } if (yValue == minValue(bits) + 1) { // x < MIN + 1 <=> x <= MIN <=> x == MIN return IntegerEqualsNode.create(forX, ConstantNode.forIntegerStamp(yStamp, minValue(bits)), view); } } else if (forY instanceof AddNode) { AddNode addNode = (AddNode) forY; LogicNode canonical = canonicalizeXLowerXPlusA(forX, addNode, false, true, view); if (canonical != null) { return canonical; } } if (forX instanceof AddNode) { AddNode addNode = (AddNode) forX; LogicNode canonical = canonicalizeXLowerXPlusA(forY, addNode, true, false, view); if (canonical != null) { return canonical; } } } return null; } private LogicNode canonicalizeXLowerXPlusA(ValueNode forX, AddNode addNode, boolean mirrored, boolean strict, NodeView view) { // x < x + a IntegerStamp succeedingXStamp; boolean exact; if (addNode.getX() == forX && addNode.getY().stamp(view) instanceof IntegerStamp) { IntegerStamp aStamp = (IntegerStamp) addNode.getY().stamp(view); succeedingXStamp = getSucceedingStampForXLowerXPlusA(mirrored, strict, aStamp); exact = aStamp.lowerBound() == aStamp.upperBound(); } else if (addNode.getY() == forX && addNode.getX().stamp(view) instanceof IntegerStamp) { IntegerStamp aStamp = (IntegerStamp) addNode.getX().stamp(view); succeedingXStamp = getSucceedingStampForXLowerXPlusA(mirrored, strict, aStamp); exact = aStamp.lowerBound() == aStamp.upperBound(); } else { return null; } if (succeedingXStamp.join(forX.stamp(view)).isEmpty()) { return LogicConstantNode.contradiction(); } else if (exact && !succeedingXStamp.isEmpty()) { int bits = succeedingXStamp.getBits(); if (compare(lowerBound(succeedingXStamp), minValue(bits)) > 0) { assert upperBound(succeedingXStamp) == maxValue(bits); // x must be in [L..MAX] <=> x >= L <=> !(x < L) return LogicNegationNode.create(create(forX, ConstantNode.forIntegerStamp(succeedingXStamp, lowerBound(succeedingXStamp)), view)); } else if (compare(upperBound(succeedingXStamp), maxValue(bits)) < 0) { // x must be in [MIN..H] <=> x <= H <=> !(H < x) return LogicNegationNode.create(create(ConstantNode.forIntegerStamp(succeedingXStamp, upperBound(succeedingXStamp)), forX, view)); } } return null; } protected TriState tryFold(Stamp xStampGeneric, Stamp yStampGeneric) { if (xStampGeneric instanceof IntegerStamp && yStampGeneric instanceof IntegerStamp) { IntegerStamp xStamp = (IntegerStamp) xStampGeneric; IntegerStamp yStamp = (IntegerStamp) yStampGeneric; if (compare(upperBound(xStamp), lowerBound(yStamp)) < 0) { return TriState.TRUE; } if (compare(lowerBound(xStamp), upperBound(yStamp)) >= 0) { return TriState.FALSE; } } return TriState.UNKNOWN; } protected IntegerStamp getSucceedingStampForX(IntegerStamp xStamp, IntegerStamp yStamp, boolean mirror, boolean strict) { int bits = xStamp.getBits(); assert yStamp.getBits() == bits; if (mirror) { long low = lowerBound(yStamp); if (strict) { if (low == maxValue(bits)) { return null; } low += 1; } if (compare(low, lowerBound(xStamp)) > 0) { return forInteger(bits, low, upperBound(xStamp)); } } else { // x < y, i.e., x < y <= Y_UPPER_BOUND so x <= Y_UPPER_BOUND - 1 long low = upperBound(yStamp); if (strict) { if (low == minValue(bits)) { return null; } low -= 1; } if (compare(low, upperBound(xStamp)) < 0) { return forInteger(bits, lowerBound(xStamp), low); } } return null; } protected IntegerStamp getSucceedingStampForXLowerXPlusA(boolean mirrored, boolean strict, IntegerStamp a) { int bits = a.getBits(); long min = minValue(bits); long max = maxValue(bits); /* * if x < x + a <=> x + a didn't overflow: * * x is outside ]MAX - a, MAX], i.e., inside [MIN, MAX - a] * * if a is negative those bounds wrap around correctly. * * If a is exactly zero this gives an unbounded stamp (any integer) in the positive case * and an empty stamp in the negative case: if x |<| x is true, then either x has no * value or any value... * * This does not use upper/lowerBound from LowerOp because it's about the (signed) * addition not the comparison. */ if (mirrored) { if (a.contains(0)) { // a may be zero return a.unrestricted(); } return forInteger(bits, min(max - a.lowerBound() + 1, max - a.upperBound() + 1, bits), max); } else { long aLower = a.lowerBound(); long aUpper = a.upperBound(); if (strict) { if (aLower == 0) { aLower = 1; } if (aUpper == 0) { aUpper = -1; } if (aLower > aUpper) { // impossible return a.empty(); } } if (aLower < 0 && aUpper > 0) { // a may be zero return a.unrestricted(); } return forInteger(bits, min, max(max - aLower, max - aUpper, bits)); } } } }