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diff --git a/src/main/java/org/apache/commons/math3/ode/nonstiff/ThreeEighthesFieldStepInterpolator.java b/src/main/java/org/apache/commons/math3/ode/nonstiff/ThreeEighthesFieldStepInterpolator.java
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+/*
+ * Licensed to the Apache Software Foundation (ASF) under one or more
+ * contributor license agreements.  See the NOTICE file distributed with
+ * this work for additional information regarding copyright ownership.
+ * The ASF licenses this file to You under the Apache License, Version 2.0
+ * (the "License"); you may not use this file except in compliance with
+ * the License.  You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+package org.apache.commons.math3.ode.nonstiff;
+
+import org.apache.commons.math3.Field;
+import org.apache.commons.math3.RealFieldElement;
+import org.apache.commons.math3.ode.FieldEquationsMapper;
+import org.apache.commons.math3.ode.FieldODEStateAndDerivative;
+
+/**
+ * This class implements a step interpolator for the 3/8 fourth
+ * order Runge-Kutta integrator.
+ *
+ * <p>This interpolator allows to compute dense output inside the last
+ * step computed. The interpolation equation is consistent with the
+ * integration scheme :
+ * <ul>
+ *   <li>Using reference point at step start:<br>
+ *     y(t<sub>n</sub> + &theta; h) = y (t<sub>n</sub>)
+ *                      + &theta; (h/8) [ (8 - 15 &theta; +  8 &theta;<sup>2</sup>) y'<sub>1</sub>
+ *                                     +  3 * (15 &theta; - 12 &theta;<sup>2</sup>) y'<sub>2</sub>
+ *                                     +        3 &theta;                           y'<sub>3</sub>
+ *                                     +      (-3 &theta; +  4 &theta;<sup>2</sup>) y'<sub>4</sub>
+ *                                    ]
+ *   </li>
+ *   <li>Using reference point at step end:<br>
+ *     y(t<sub>n</sub> + &theta; h) = y (t<sub>n</sub> + h)
+ *                      - (1 - &theta;) (h/8) [(1 - 7 &theta; + 8 &theta;<sup>2</sup>) y'<sub>1</sub>
+ *                                         + 3 (1 +   &theta; - 4 &theta;<sup>2</sup>) y'<sub>2</sub>
+ *                                         + 3 (1 +   &theta;)                         y'<sub>3</sub>
+ *                                         +   (1 +   &theta; + 4 &theta;<sup>2</sup>) y'<sub>4</sub>
+ *                                          ]
+ *   </li>
+ * </ul>
+ * </p>
+ *
+ * where &theta; belongs to [0 ; 1] and where y'<sub>1</sub> to y'<sub>4</sub> are the four
+ * evaluations of the derivatives already computed during the
+ * step.</p>
+ *
+ * @see ThreeEighthesFieldIntegrator
+ * @param <T> the type of the field elements
+ * @since 3.6
+ */
+
+class ThreeEighthesFieldStepInterpolator<T extends RealFieldElement<T>>
+      extends RungeKuttaFieldStepInterpolator<T> {
+
+    /** Simple constructor.
+     * @param field field to which the time and state vector elements belong
+     * @param forward integration direction indicator
+     * @param yDotK slopes at the intermediate points
+     * @param globalPreviousState start of the global step
+     * @param globalCurrentState end of the global step
+     * @param softPreviousState start of the restricted step
+     * @param softCurrentState end of the restricted step
+     * @param mapper equations mapper for the all equations
+     */
+    ThreeEighthesFieldStepInterpolator(final Field<T> field, final boolean forward,
+                                       final T[][] yDotK,
+                                       final FieldODEStateAndDerivative<T> globalPreviousState,
+                                       final FieldODEStateAndDerivative<T> globalCurrentState,
+                                       final FieldODEStateAndDerivative<T> softPreviousState,
+                                       final FieldODEStateAndDerivative<T> softCurrentState,
+                                       final FieldEquationsMapper<T> mapper) {
+        super(field, forward, yDotK,
+              globalPreviousState, globalCurrentState, softPreviousState, softCurrentState,
+              mapper);
+    }
+
+    /** {@inheritDoc} */
+    @Override
+    protected ThreeEighthesFieldStepInterpolator<T> create(final Field<T> newField, final boolean newForward, final T[][] newYDotK,
+                                                           final FieldODEStateAndDerivative<T> newGlobalPreviousState,
+                                                           final FieldODEStateAndDerivative<T> newGlobalCurrentState,
+                                                           final FieldODEStateAndDerivative<T> newSoftPreviousState,
+                                                           final FieldODEStateAndDerivative<T> newSoftCurrentState,
+                                                           final FieldEquationsMapper<T> newMapper) {
+        return new ThreeEighthesFieldStepInterpolator<T>(newField, newForward, newYDotK,
+                                                         newGlobalPreviousState, newGlobalCurrentState,
+                                                         newSoftPreviousState, newSoftCurrentState,
+                                                         newMapper);
+    }
+
+    /** {@inheritDoc} */
+    @SuppressWarnings("unchecked")
+    @Override
+    protected FieldODEStateAndDerivative<T> computeInterpolatedStateAndDerivatives(final FieldEquationsMapper<T> mapper,
+                                                                                   final T time, final T theta,
+                                                                                   final T thetaH, final T oneMinusThetaH) {
+
+        final T coeffDot3  = theta.multiply(0.75);
+        final T coeffDot1  = coeffDot3.multiply(theta.multiply(4).subtract(5)).add(1);
+        final T coeffDot2  = coeffDot3.multiply(theta.multiply(-6).add(5));
+        final T coeffDot4  = coeffDot3.multiply(theta.multiply(2).subtract(1));
+        final T[] interpolatedState;
+        final T[] interpolatedDerivatives;
+
+        if (getGlobalPreviousState() != null && theta.getReal() <= 0.5) {
+            final T s          = thetaH.divide(8);
+            final T fourTheta2 = theta.multiply(theta).multiply(4);
+            final T coeff1     = s.multiply(fourTheta2.multiply(2).subtract(theta.multiply(15)).add(8));
+            final T coeff2     = s.multiply(theta.multiply(5).subtract(fourTheta2)).multiply(3);
+            final T coeff3     = s.multiply(theta).multiply(3);
+            final T coeff4     = s.multiply(fourTheta2.subtract(theta.multiply(3)));
+            interpolatedState       = previousStateLinearCombination(coeff1, coeff2, coeff3, coeff4);
+            interpolatedDerivatives = derivativeLinearCombination(coeffDot1, coeffDot2, coeffDot3, coeffDot4);
+        } else {
+            final T s          = oneMinusThetaH.divide(-8);
+            final T fourTheta2 = theta.multiply(theta).multiply(4);
+            final T thetaPlus1 = theta.add(1);
+            final T coeff1     = s.multiply(fourTheta2.multiply(2).subtract(theta.multiply(7)).add(1));
+            final T coeff2     = s.multiply(thetaPlus1.subtract(fourTheta2)).multiply(3);
+            final T coeff3     = s.multiply(thetaPlus1).multiply(3);
+            final T coeff4     = s.multiply(thetaPlus1.add(fourTheta2));
+            interpolatedState       = currentStateLinearCombination(coeff1, coeff2, coeff3, coeff4);
+            interpolatedDerivatives = derivativeLinearCombination(coeffDot1, coeffDot2, coeffDot3, coeffDot4);
+        }
+
+        return new FieldODEStateAndDerivative<T>(time, interpolatedState, interpolatedDerivatives);
+
+    }
+
+}