package org.hamcrest.number; import org.hamcrest.Description; import org.hamcrest.Matcher; import org.hamcrest.TypeSafeMatcher; import java.math.BigDecimal; import java.math.MathContext; public class BigDecimalCloseTo extends TypeSafeMatcher { private final BigDecimal delta; private final BigDecimal value; public BigDecimalCloseTo(BigDecimal value, BigDecimal error) { this.delta = error; this.value = value; } @Override public boolean matchesSafely(BigDecimal item) { return actualDelta(item).compareTo(BigDecimal.ZERO) <= 0; } @Override public void describeMismatchSafely(BigDecimal item, Description mismatchDescription) { mismatchDescription.appendValue(item) .appendText(" differed by ") .appendValue(actualDelta(item)) .appendText(" more than delta ") .appendValue(delta); } @Override public void describeTo(Description description) { description.appendText("a numeric value within ") .appendValue(delta) .appendText(" of ") .appendValue(value); } private BigDecimal actualDelta(BigDecimal item) { return item.subtract(value, MathContext.DECIMAL128).abs().subtract(delta, MathContext.DECIMAL128).stripTrailingZeros(); } /** * Creates a matcher of {@link java.math.BigDecimal}s that matches when an examined BigDecimal is equal * to the specified operand, within a range of +/- error. The comparison for equality * is done by BigDecimals {@link java.math.BigDecimal#compareTo(java.math.BigDecimal)} method. * For example: *

assertThat(new BigDecimal("1.03"), is(closeTo(new BigDecimal("1.0"), new BigDecimal("0.03"))))

* * @param operand * the expected value of matching BigDecimals * @param error * the delta (+/-) within which matches will be allowed */ public static Matcher closeTo(BigDecimal operand, BigDecimal error) { return new BigDecimalCloseTo(operand, error); } }