/* * 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.core.common.type; import static org.graalvm.compiler.core.common.calc.FloatConvert.D2F; import static org.graalvm.compiler.core.common.calc.FloatConvert.D2I; import static org.graalvm.compiler.core.common.calc.FloatConvert.D2L; import static org.graalvm.compiler.core.common.calc.FloatConvert.F2D; import static org.graalvm.compiler.core.common.calc.FloatConvert.F2I; import static org.graalvm.compiler.core.common.calc.FloatConvert.F2L; import java.nio.ByteBuffer; import java.util.function.DoubleBinaryOperator; import org.graalvm.compiler.core.common.LIRKind; import org.graalvm.compiler.core.common.spi.LIRKindTool; import org.graalvm.compiler.core.common.type.ArithmeticOpTable.BinaryOp; import org.graalvm.compiler.core.common.type.ArithmeticOpTable.FloatConvertOp; import org.graalvm.compiler.core.common.type.ArithmeticOpTable.UnaryOp; import org.graalvm.compiler.debug.GraalError; import jdk.vm.ci.meta.Constant; import jdk.vm.ci.meta.JavaConstant; import jdk.vm.ci.meta.JavaKind; import jdk.vm.ci.meta.MetaAccessProvider; import jdk.vm.ci.meta.PrimitiveConstant; import jdk.vm.ci.meta.ResolvedJavaType; import jdk.vm.ci.meta.SerializableConstant; public class FloatStamp extends PrimitiveStamp { private final double lowerBound; private final double upperBound; private final boolean nonNaN; protected FloatStamp(int bits) { this(bits, Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY, false); } public FloatStamp(int bits, double lowerBound, double upperBound, boolean nonNaN) { super(bits, OPS); assert bits == 64 || (bits == 32 && (Double.isNaN(lowerBound) || (float) lowerBound == lowerBound) && (Double.isNaN(upperBound) || (float) upperBound == upperBound)); assert Double.isNaN(lowerBound) == Double.isNaN(upperBound); this.lowerBound = lowerBound; this.upperBound = upperBound; this.nonNaN = nonNaN; } @Override public Stamp unrestricted() { return new FloatStamp(getBits()); } @Override public Stamp empty() { return new FloatStamp(getBits(), Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY, true); } @Override public Stamp constant(Constant c, MetaAccessProvider meta) { JavaConstant jc = (JavaConstant) c; assert jc.getJavaKind().isNumericFloat() && jc.getJavaKind().getBitCount() == getBits(); return StampFactory.forConstant(jc); } @Override public SerializableConstant deserialize(ByteBuffer buffer) { switch (getBits()) { case 32: return JavaConstant.forFloat(buffer.getFloat()); case 64: return JavaConstant.forDouble(buffer.getDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public boolean hasValues() { return lowerBound <= upperBound || !nonNaN; } @Override public JavaKind getStackKind() { if (getBits() > 32) { return JavaKind.Double; } else { return JavaKind.Float; } } @Override public LIRKind getLIRKind(LIRKindTool tool) { return tool.getFloatingKind(getBits()); } @Override public ResolvedJavaType javaType(MetaAccessProvider metaAccess) { switch (getBits()) { case 32: return metaAccess.lookupJavaType(Float.TYPE); case 64: return metaAccess.lookupJavaType(Double.TYPE); default: throw GraalError.shouldNotReachHere(); } } /** * The (inclusive) lower bound on the value described by this stamp. */ public double lowerBound() { return lowerBound; } /** * The (inclusive) upper bound on the value described by this stamp. */ public double upperBound() { return upperBound; } /** * Returns true if NaN is non included in the value described by this stamp. */ public boolean isNonNaN() { return nonNaN; } /** * Returns true if NaN is included in the value described by this stamp. */ public boolean canBeNaN() { return !nonNaN; } /** * Returns true if this stamp represents the NaN value. */ public boolean isNaN() { return Double.isNaN(lowerBound); } @Override public boolean isUnrestricted() { return lowerBound == Double.NEGATIVE_INFINITY && upperBound == Double.POSITIVE_INFINITY && !nonNaN; } public boolean contains(double value) { if (Double.isNaN(value)) { return !nonNaN; } else { /* * Don't use Double.compare for checking the bounds as -0.0 isn't correctly tracked, so * the presence of 0.0 means -0.0 might also exist in the range. */ return value >= lowerBound && value <= upperBound; } } @Override public String toString() { StringBuilder str = new StringBuilder(); str.append('f'); str.append(getBits()); if (hasValues()) { str.append(nonNaN ? "!" : ""); if (lowerBound == upperBound) { str.append(" [").append(lowerBound).append(']'); } else if (lowerBound != Double.NEGATIVE_INFINITY || upperBound != Double.POSITIVE_INFINITY) { str.append(" [").append(lowerBound).append(" - ").append(upperBound).append(']'); } } else { str.append(""); } return str.toString(); } private static double meetBounds(double a, double b, DoubleBinaryOperator op) { if (Double.isNaN(a)) { return b; } else if (Double.isNaN(b)) { return a; } else { return op.applyAsDouble(a, b); } } @Override public Stamp meet(Stamp otherStamp) { if (otherStamp == this) { return this; } if (isEmpty()) { return this; } if (otherStamp.isEmpty()) { return otherStamp; } FloatStamp other = (FloatStamp) otherStamp; assert getBits() == other.getBits(); double meetUpperBound = meetBounds(upperBound, other.upperBound, Math::max); double meetLowerBound = meetBounds(lowerBound, other.lowerBound, Math::min); boolean meetNonNaN = nonNaN && other.nonNaN; if (Double.compare(meetLowerBound, lowerBound) == 0 && Double.compare(meetUpperBound, upperBound) == 0 && meetNonNaN == nonNaN) { return this; } else if (Double.compare(meetLowerBound, other.lowerBound) == 0 && Double.compare(meetUpperBound, other.upperBound) == 0 && meetNonNaN == other.nonNaN) { return other; } else { return new FloatStamp(getBits(), meetLowerBound, meetUpperBound, meetNonNaN); } } @Override public Stamp join(Stamp otherStamp) { if (otherStamp == this) { return this; } FloatStamp other = (FloatStamp) otherStamp; assert getBits() == other.getBits(); double joinUpperBound = Math.min(upperBound, other.upperBound); double joinLowerBound = Math.max(lowerBound, other.lowerBound); boolean joinNonNaN = nonNaN || other.nonNaN; if (Double.compare(joinLowerBound, lowerBound) == 0 && Double.compare(joinUpperBound, upperBound) == 0 && joinNonNaN == nonNaN) { return this; } else if (Double.compare(joinLowerBound, other.lowerBound) == 0 && Double.compare(joinUpperBound, other.upperBound) == 0 && joinNonNaN == other.nonNaN) { return other; } else { return new FloatStamp(getBits(), joinLowerBound, joinUpperBound, joinNonNaN); } } @Override public int hashCode() { final int prime = 31; int result = 1; long temp; result = prime * result + super.hashCode(); temp = Double.doubleToLongBits(lowerBound); result = prime * result + (int) (temp ^ (temp >>> 32)); result = prime * result + (nonNaN ? 1231 : 1237); temp = Double.doubleToLongBits(upperBound); result = prime * result + (int) (temp ^ (temp >>> 32)); return result; } @Override public boolean isCompatible(Stamp stamp) { if (this == stamp) { return true; } if (stamp instanceof FloatStamp) { FloatStamp other = (FloatStamp) stamp; return getBits() == other.getBits(); } return false; } @Override public boolean isCompatible(Constant constant) { if (constant instanceof PrimitiveConstant) { PrimitiveConstant prim = (PrimitiveConstant) constant; return prim.getJavaKind().isNumericFloat(); } return false; } @Override public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null || getClass() != obj.getClass() || !super.equals(obj)) { return false; } FloatStamp other = (FloatStamp) obj; if (Double.doubleToLongBits(lowerBound) != Double.doubleToLongBits(other.lowerBound)) { return false; } if (Double.doubleToLongBits(upperBound) != Double.doubleToLongBits(other.upperBound)) { return false; } if (nonNaN != other.nonNaN) { return false; } return super.equals(other); } @Override public JavaConstant asConstant() { if (isConstant()) { switch (getBits()) { case 32: return JavaConstant.forFloat((float) lowerBound); case 64: return JavaConstant.forDouble(lowerBound); } } return null; } private boolean isConstant() { /* * There are many forms of NaNs and any operations on them can silently convert them into * the canonical NaN. * * We need to exclude 0 here since it can contain -0.0 && 0.0 . */ return (Double.compare(lowerBound, upperBound) == 0 && nonNaN) && lowerBound != 0; } private static FloatStamp stampForConstant(Constant constant) { FloatStamp result; PrimitiveConstant value = (PrimitiveConstant) constant; switch (value.getJavaKind()) { case Float: if (Float.isNaN(value.asFloat())) { result = new FloatStamp(32, Double.NaN, Double.NaN, false); } else { result = new FloatStamp(32, value.asFloat(), value.asFloat(), !Float.isNaN(value.asFloat())); } break; case Double: if (Double.isNaN(value.asDouble())) { result = new FloatStamp(64, Double.NaN, Double.NaN, false); } else { result = new FloatStamp(64, value.asDouble(), value.asDouble(), !Double.isNaN(value.asDouble())); } break; default: throw GraalError.shouldNotReachHere(); } if (result.isConstant()) { return result; } return null; } private static Stamp maybeFoldConstant(UnaryOp op, FloatStamp stamp) { if (stamp.isConstant()) { JavaConstant constant = stamp.asConstant(); Constant folded = op.foldConstant(constant); if (folded != null) { return FloatStamp.stampForConstant(folded); } } return null; } private static Stamp maybeFoldConstant(BinaryOp op, FloatStamp stamp1, FloatStamp stamp2) { if (stamp1.isConstant() && stamp2.isConstant()) { JavaConstant constant1 = stamp1.asConstant(); JavaConstant constant2 = stamp2.asConstant(); Constant folded = op.foldConstant(constant1, constant2); if (folded != null) { FloatStamp stamp = stampForConstant(folded); if (stamp != null && stamp.isConstant()) { assert stamp.asConstant().equals(folded); return stamp; } } } return null; } public static final ArithmeticOpTable OPS = new ArithmeticOpTable( new UnaryOp.Neg() { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; switch (value.getJavaKind()) { case Float: return JavaConstant.forFloat(-value.asFloat()); case Double: return JavaConstant.forDouble(-value.asDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s) { if (s.isEmpty()) { return s; } FloatStamp stamp = (FloatStamp) s; Stamp folded = maybeFoldConstant(this, stamp); if (folded != null) { return folded; } return new FloatStamp(stamp.getBits(), -stamp.upperBound(), -stamp.lowerBound(), stamp.isNonNaN()); } }, new BinaryOp.Add(false, true) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: return JavaConstant.forFloat(a.asFloat() + b.asFloat()); case Double: return JavaConstant.forDouble(a.asDouble() + b.asDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant value) { PrimitiveConstant n = (PrimitiveConstant) value; switch (n.getJavaKind()) { case Float: return Float.compare(n.asFloat(), -0.0f) == 0; case Double: return Double.compare(n.asDouble(), -0.0) == 0; default: throw GraalError.shouldNotReachHere(); } } }, new BinaryOp.Sub(false, false) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: return JavaConstant.forFloat(a.asFloat() - b.asFloat()); case Double: return JavaConstant.forDouble(a.asDouble() - b.asDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant value) { PrimitiveConstant n = (PrimitiveConstant) value; switch (n.getJavaKind()) { case Float: return Float.compare(n.asFloat(), 0.0f) == 0; case Double: return Double.compare(n.asDouble(), 0.0) == 0; default: throw GraalError.shouldNotReachHere(); } } }, new BinaryOp.Mul(false, true) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: return JavaConstant.forFloat(a.asFloat() * b.asFloat()); case Double: return JavaConstant.forDouble(a.asDouble() * b.asDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant value) { PrimitiveConstant n = (PrimitiveConstant) value; switch (n.getJavaKind()) { case Float: return Float.compare(n.asFloat(), 1.0f) == 0; case Double: return Double.compare(n.asDouble(), 1.0) == 0; default: throw GraalError.shouldNotReachHere(); } } }, null, null, new BinaryOp.Div(false, false) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: float floatDivisor = b.asFloat(); return (floatDivisor == 0) ? null : JavaConstant.forFloat(a.asFloat() / floatDivisor); case Double: double doubleDivisor = b.asDouble(); return (doubleDivisor == 0) ? null : JavaConstant.forDouble(a.asDouble() / doubleDivisor); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant value) { PrimitiveConstant n = (PrimitiveConstant) value; switch (n.getJavaKind()) { case Float: return Float.compare(n.asFloat(), 1.0f) == 0; case Double: return Double.compare(n.asDouble(), 1.0) == 0; default: throw GraalError.shouldNotReachHere(); } } }, new BinaryOp.Rem(false, false) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: return JavaConstant.forFloat(a.asFloat() % b.asFloat()); case Double: return JavaConstant.forDouble(a.asDouble() % b.asDouble()); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } }, new UnaryOp.Not() { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; switch (value.getJavaKind()) { case Float: int f = Float.floatToRawIntBits(value.asFloat()); return JavaConstant.forFloat(Float.intBitsToFloat(~f)); case Double: long d = Double.doubleToRawLongBits(value.asDouble()); return JavaConstant.forDouble(Double.longBitsToDouble(~d)); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s) { if (s.isEmpty()) { return s; } FloatStamp stamp = (FloatStamp) s; JavaConstant constant = stamp.asConstant(); if (constant != null) { Constant folded = foldConstant(constant); if (folded != null) { FloatStamp result = stampForConstant(folded); if (result != null && result.isConstant()) { return result; } } } return s.unrestricted(); } }, new BinaryOp.And(true, true) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: int fa = Float.floatToRawIntBits(a.asFloat()); int fb = Float.floatToRawIntBits(b.asFloat()); return JavaConstant.forFloat(Float.intBitsToFloat(fa & fb)); case Double: long da = Double.doubleToRawLongBits(a.asDouble()); long db = Double.doubleToRawLongBits(b.asDouble()); return JavaConstant.forDouble(Double.longBitsToDouble(da & db)); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant n) { PrimitiveConstant value = (PrimitiveConstant) n; switch (value.getJavaKind()) { case Float: return Float.floatToRawIntBits(value.asFloat()) == 0xFFFFFFFF; case Double: return Double.doubleToRawLongBits(value.asDouble()) == 0xFFFFFFFFFFFFFFFFL; default: throw GraalError.shouldNotReachHere(); } } }, new BinaryOp.Or(true, true) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: int fa = Float.floatToRawIntBits(a.asFloat()); int fb = Float.floatToRawIntBits(b.asFloat()); float floatOr = Float.intBitsToFloat(fa | fb); assert (fa | fb) == Float.floatToRawIntBits((floatOr)); return JavaConstant.forFloat(floatOr); case Double: long da = Double.doubleToRawLongBits(a.asDouble()); long db = Double.doubleToRawLongBits(b.asDouble()); return JavaConstant.forDouble(Double.longBitsToDouble(da | db)); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant n) { PrimitiveConstant value = (PrimitiveConstant) n; switch (value.getJavaKind()) { case Float: return Float.floatToRawIntBits(value.asFloat()) == 0; case Double: return Double.doubleToRawLongBits(value.asDouble()) == 0L; default: throw GraalError.shouldNotReachHere(); } } }, new BinaryOp.Xor(true, true) { @Override public Constant foldConstant(Constant const1, Constant const2) { PrimitiveConstant a = (PrimitiveConstant) const1; PrimitiveConstant b = (PrimitiveConstant) const2; assert a.getJavaKind() == b.getJavaKind(); switch (a.getJavaKind()) { case Float: int fa = Float.floatToRawIntBits(a.asFloat()); int fb = Float.floatToRawIntBits(b.asFloat()); return JavaConstant.forFloat(Float.intBitsToFloat(fa ^ fb)); case Double: long da = Double.doubleToRawLongBits(a.asDouble()); long db = Double.doubleToRawLongBits(b.asDouble()); return JavaConstant.forDouble(Double.longBitsToDouble(da ^ db)); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s1, Stamp s2) { if (s1.isEmpty()) { return s1; } if (s2.isEmpty()) { return s2; } FloatStamp stamp1 = (FloatStamp) s1; FloatStamp stamp2 = (FloatStamp) s2; Stamp folded = maybeFoldConstant(this, stamp1, stamp2); if (folded != null) { return folded; } return stamp1.unrestricted(); } @Override public boolean isNeutral(Constant n) { PrimitiveConstant value = (PrimitiveConstant) n; switch (value.getJavaKind()) { case Float: return Float.floatToRawIntBits(value.asFloat()) == 0; case Double: return Double.doubleToRawLongBits(value.asDouble()) == 0L; default: throw GraalError.shouldNotReachHere(); } } }, null, null, null, new UnaryOp.Abs() { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; switch (value.getJavaKind()) { case Float: return JavaConstant.forFloat(Math.abs(value.asFloat())); case Double: return JavaConstant.forDouble(Math.abs(value.asDouble())); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s) { if (s.isEmpty()) { return s; } FloatStamp stamp = (FloatStamp) s; Stamp folded = maybeFoldConstant(this, stamp); if (folded != null) { return folded; } if (stamp.isNaN()) { return stamp; } return new FloatStamp(stamp.getBits(), 0, Math.max(-stamp.lowerBound(), stamp.upperBound()), stamp.isNonNaN()); } }, new UnaryOp.Sqrt() { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; switch (value.getJavaKind()) { case Float: return JavaConstant.forFloat((float) Math.sqrt(value.asFloat())); case Double: return JavaConstant.forDouble(Math.sqrt(value.asDouble())); default: throw GraalError.shouldNotReachHere(); } } @Override public Stamp foldStamp(Stamp s) { if (s.isEmpty()) { return s; } FloatStamp stamp = (FloatStamp) s; Stamp folded = maybeFoldConstant(this, stamp); if (folded != null) { return folded; } return s.unrestricted(); } }, null, null, null, new FloatConvertOp(F2I) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forInt((int) value.asFloat()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Int); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 32; boolean mustHaveZero = !floatStamp.isNonNaN(); int lowerBound = (int) floatStamp.lowerBound(); int upperBound = (int) floatStamp.upperBound(); if (mustHaveZero) { if (lowerBound > 0) { lowerBound = 0; } else if (upperBound < 0) { upperBound = 0; } } return StampFactory.forInteger(JavaKind.Int, lowerBound, upperBound); } }, new FloatConvertOp(F2L) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forLong((long) value.asFloat()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Long); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 32; boolean mustHaveZero = !floatStamp.isNonNaN(); long lowerBound = (long) floatStamp.lowerBound(); long upperBound = (long) floatStamp.upperBound(); if (mustHaveZero) { if (lowerBound > 0) { lowerBound = 0; } else if (upperBound < 0) { upperBound = 0; } } return StampFactory.forInteger(JavaKind.Long, lowerBound, upperBound); } }, new FloatConvertOp(D2I) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forInt((int) value.asDouble()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Int); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 64; boolean mustHaveZero = !floatStamp.isNonNaN(); int lowerBound = (int) floatStamp.lowerBound(); int upperBound = (int) floatStamp.upperBound(); if (mustHaveZero) { if (lowerBound > 0) { lowerBound = 0; } else if (upperBound < 0) { upperBound = 0; } } return StampFactory.forInteger(JavaKind.Int, lowerBound, upperBound); } }, new FloatConvertOp(D2L) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forLong((long) value.asDouble()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Long); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 64; boolean mustHaveZero = !floatStamp.isNonNaN(); long lowerBound = (long) floatStamp.lowerBound(); long upperBound = (long) floatStamp.upperBound(); if (mustHaveZero) { if (lowerBound > 0) { lowerBound = 0; } else if (upperBound < 0) { upperBound = 0; } } return StampFactory.forInteger(JavaKind.Long, lowerBound, upperBound); } }, new FloatConvertOp(F2D) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forDouble(value.asFloat()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Double); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 32; return StampFactory.forFloat(JavaKind.Double, floatStamp.lowerBound(), floatStamp.upperBound(), floatStamp.isNonNaN()); } }, new FloatConvertOp(D2F) { @Override public Constant foldConstant(Constant c) { PrimitiveConstant value = (PrimitiveConstant) c; return JavaConstant.forFloat((float) value.asDouble()); } @Override public Stamp foldStamp(Stamp stamp) { if (stamp.isEmpty()) { return StampFactory.empty(JavaKind.Float); } FloatStamp floatStamp = (FloatStamp) stamp; assert floatStamp.getBits() == 64; return StampFactory.forFloat(JavaKind.Float, (float) floatStamp.lowerBound(), (float) floatStamp.upperBound(), floatStamp.isNonNaN()); } }); }