private static int compareUpperUpper(final OWLRealInterval a, final OWLRealInterval b) { int uu; if (!a.boundUpper()) { if (!b.boundUpper()) uu = 0; else uu = 1; } else if (!b.boundUpper()) uu = -1; else { uu = OWLRealUtils.compare(a.getUpper(), b.getUpper()); if (uu == 0) if (a.inclusiveUpper()) { if (!b.inclusiveUpper()) uu = 1; } else if (b.inclusiveUpper()) uu = -1; } return uu; }
private static int compareUpperUpper(final OWLRealInterval a, final OWLRealInterval b) { int uu; if (!a.boundUpper()) { if (!b.boundUpper()) uu = 0; else uu = 1; } else if (!b.boundUpper()) uu = -1; else { uu = OWLRealUtils.compare(a.getUpper(), b.getUpper()); if (uu == 0) if (a.inclusiveUpper()) { if (!b.inclusiveUpper()) uu = 1; } else if (b.inclusiveUpper()) uu = -1; } return uu; }
private static int compareUpperLower(final OWLRealInterval a, final OWLRealInterval b) { int ul; if (!a.boundUpper()) ul = 1; else if (!b.boundLower()) ul = 1; else ul = OWLRealUtils.compare(a.getUpper(), b.getLower()); return ul; }
private static int compareUpperLower(final OWLRealInterval a, final OWLRealInterval b) { int ul; if (!a.boundUpper()) ul = 1; else if (!b.boundLower()) ul = 1; else ul = OWLRealUtils.compare(a.getUpper(), b.getLower()); return ul; }
finish = boundUpper() ? getUpper() : null; if (boundUpper())
finish = boundUpper() ? getUpper() : null; if (boundUpper())
@Override public String toString() { return format("%s%s,%s%s%s", inclusiveLower() ? "[" : "(", boundLower() ? getLower() : "-Inf", boundUpper() ? getUpper() : "+Inf", inclusiveUpper() ? "]" : ")", _type.equals(LineType.CONTINUOUS) ? "" : _type.equals(LineType.INTEGER_ONLY) ? "{int}" : "{noint}"); }
@Override public String toString() { return format("%s%s,%s%s%s", inclusiveLower() ? "[" : "(", boundLower() ? getLower() : "-Inf", boundUpper() ? getUpper() : "+Inf", inclusiveUpper() ? "]" : ")", _type.equals(LineType.CONTINUOUS) ? "" : _type.equals(LineType.INTEGER_ONLY) ? "{int}" : "{noint}"); }
/** * Get the subinterval less than n * * @param n * @return a new interval, formed by intersecting this interval with (-inf,n) or <code>null</code> if that intersection is empty */ public OWLRealInterval less(final Number n) { if (boundUpper() && OWLRealUtils.compare(n, getUpper()) > 0) return this; else if (boundLower() && OWLRealUtils.compare(n, getLower()) <= 0) return null; return new OWLRealInterval(getLower(), n, inclusiveLower(), false, getType()); }
/** * Get the subinterval less than n * * @param n * @return a new interval, formed by intersecting this interval with (-inf,n) or <code>null</code> if that intersection is empty */ public OWLRealInterval less(final Number n) { if (boundUpper() && OWLRealUtils.compare(n, getUpper()) > 0) return this; else if (boundLower() && OWLRealUtils.compare(n, getLower()) <= 0) return null; return new OWLRealInterval(getLower(), n, inclusiveLower(), false, getType()); }
/** * Get the subinterval greater than n * * @param n * @return a new interval, formed by intersecting this interval with (n,+inf) or <code>null</code> if that intersection is empty */ public OWLRealInterval greater(final Number n) { if (boundLower() && OWLRealUtils.compare(n, getLower()) < 0) return this; else if (boundUpper() && OWLRealUtils.compare(n, getUpper()) >= 0) return null; return new OWLRealInterval(n, getUpper(), false, inclusiveUpper(), getType()); }
/** * Get the subinterval greater than n * * @param n * @return a new interval, formed by intersecting this interval with (n,+inf) or <code>null</code> if that intersection is empty */ public OWLRealInterval greater(final Number n) { if (boundLower() && OWLRealUtils.compare(n, getLower()) < 0) return this; else if (boundUpper() && OWLRealUtils.compare(n, getUpper()) >= 0) return null; return new OWLRealInterval(n, getUpper(), false, inclusiveUpper(), getType()); }
@Test public void unboundContainsAll() { final OWLRealInterval interval = new OWLRealInterval(null, null, false, false, LineType.CONTINUOUS); assertFalse(interval.boundLower()); assertFalse(interval.boundUpper()); assertFalse(interval.isPoint()); assertTrue(interval.contains(-1)); assertTrue(interval.contains(0)); assertTrue(interval.contains(1)); assertTrue(interval.contains(BigDecimal.valueOf(-0.31d))); assertTrue(interval.contains(BigDecimal.valueOf(0.13d))); assertTrue(interval.contains(BigDecimal.valueOf(Long.MAX_VALUE).add(BigDecimal.valueOf(Long.MAX_VALUE)).add(BigDecimal.valueOf(0.123d)))); }
public boolean contains(final Number n) { if (_type.equals(LineType.INTEGER_ONLY)) { if (!isInteger(n)) return false; } else if (_type.equals(LineType.INTEGER_EXCLUDED)) if (isInteger(n)) return false; int comp; if (boundLower()) { comp = OWLRealUtils.compare(getLower(), n); if (comp > 0) return false; if (comp == 0 && !inclusiveLower()) return false; } if (boundUpper()) { comp = OWLRealUtils.compare(getUpper(), n); if (comp < 0) return false; if (comp == 0 && !inclusiveUpper()) return false; } return true; }
public boolean contains(final Number n) { if (_type.equals(LineType.INTEGER_ONLY)) { if (!isInteger(n)) return false; } else if (_type.equals(LineType.INTEGER_EXCLUDED)) if (isInteger(n)) return false; int comp; if (boundLower()) { comp = OWLRealUtils.compare(getLower(), n); if (comp > 0) return false; if (comp == 0 && !inclusiveLower()) return false; } if (boundUpper()) { comp = OWLRealUtils.compare(getUpper(), n); if (comp < 0) return false; if (comp == 0 && !inclusiveUpper()) return false; } return true; }