/* * Copyright 2006-2010 Amazon Technologies, Inc. or its affiliates. * Amazon, Amazon.com and Carbonado are trademarks or registered trademarks * of Amazon Technologies, Inc. or its affiliates. All rights reserved. * * Licensed 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 com.amazon.carbonado.constraint; import java.lang.annotation.*; import java.util.Arrays; import com.amazon.carbonado.MalformedTypeException; /** * Limits the value of a property to be a member of a specific set. The * property value may be a boxed or unboxed float, double, String, * CharSequence, char, Character, or character array. If the property value is * outside the set, an IllegalArgumentException is thrown. * *
Example:
* public interface PolarCoordinate extends Storable { * double getTheta(); * @FloatConstraint(min=0, max=Math.PI * 2, disallowed=Double.NaN) * void setTheta(double radians); * * ... * } ** * @author Brian S O'Neill * @see IntegerConstraint * @see TextConstraint */ @Documented @Retention(RetentionPolicy.RUNTIME) @Target(ElementType.METHOD) @ConstraintDefinition public @interface FloatConstraint { /** * Specific allowed values for property. Default is unlimited. */ double[] allowed() default {}; /** * Specific disallowed values for property. Default is none. */ double[] disallowed() default {}; /** * Specify minimum allowed value for float/double property. Default is unlimited. */ double min() default Double.NEGATIVE_INFINITY; /** * Specify maximum allowed value for float/double property. Default is unlimited. */ double max() default Double.POSITIVE_INFINITY; /** * Constraint implementation for {@link FloatConstraint}. */ public static class Constraint { private final String mPropertyName; private final double mMinValue; private final double mMaxValue; /** Disallowed values, sorted for binary search. */ private final double[] mDisallowed; /** Allowed values, sorted for binary search. */ private final double[] mAllowed; /** * @param type type of object that contains the constrained property * @param propertyName name of property with constraint * @param ann specific annotation that binds to this constraint class */ public Constraint(Class> type, String propertyName, FloatConstraint ann) { this(type, propertyName, ann.min(), ann.max(), ann.allowed(), ann.disallowed()); } /** * @param type type of object that contains the constrained property * @param propertyName name of property with constraint * @param min minimum allowed value * @param max maximum allowed value * @param allowed optional set of allowed values * @param disallowed optional set of disallowed values */ public Constraint(Class> type, String propertyName, double min, double max, double[] allowed, double[] disallowed) { mPropertyName = propertyName; mMinValue = min; mMaxValue = max; if (mMaxValue < mMinValue) { throw new MalformedTypeException (type, "Illegal range for float constraint on property \"" + propertyName + "\": " + rangeString()); } if (disallowed == null || disallowed.length == 0) { disallowed = null; } else { disallowed = disallowed.clone(); Arrays.sort(disallowed); } if (allowed == null || allowed.length == 0) { allowed = null; } else { allowed = allowed.clone(); Arrays.sort(allowed); for (double value : allowed) { if (value < mMinValue || value > mMaxValue || (disallowed != null && Arrays.binarySearch(disallowed, value) >= 0)) { throw new MalformedTypeException (type, "Allowed value contradiction for float constraint " + "on property \"" + propertyName + "\": " + value); } } // No need to have a set of disallowed values. disallowed = null; } mDisallowed = disallowed; mAllowed = allowed; } public void constrain(double propertyValue) { if (propertyValue < mMinValue || propertyValue > mMaxValue) { throw new IllegalArgumentException ("Value for \"" + mPropertyName + "\" must be in range " + rangeString() + ": " + propertyValue); } if (mDisallowed != null && Arrays.binarySearch(mDisallowed, propertyValue) >= 0) { throw new IllegalArgumentException ("Value for \"" + mPropertyName + "\" is disallowed: " + propertyValue); } if (mAllowed != null && Arrays.binarySearch(mAllowed, propertyValue) < 0) { throw new IllegalArgumentException ("Value for \"" + mPropertyName + "\" is not allowed: " + propertyValue); } } public void constrain(CharSequence propertyValue) { if (propertyValue != null) { try { constrain(Double.parseDouble(propertyValue.toString())); } catch (NumberFormatException e) { throw new IllegalArgumentException ("Value for \"" + mPropertyName + "\" is not a number: " + propertyValue); } } } public void constrain(char propertyValue) { if ('0' <= propertyValue && propertyValue <= '9') { constrain((double) (propertyValue - '0')); } else { throw new IllegalArgumentException ("Value for \"" + mPropertyName + "\" is not a number: " + propertyValue); } } public void constrain(char[] propertyValue) { if (propertyValue != null) { constrain(new String(propertyValue)); } } private String rangeString() { StringBuilder b = new StringBuilder(); b.append('('); if (mMinValue > Double.MIN_VALUE) { b.append(mMinValue); } b.append(".."); if (mMaxValue < Double.MAX_VALUE) { b.append(mMaxValue); } b.append(')'); return b.toString(); } } }