private static int kindFlags(AbstractBounds<?> ab) { int flags = 0; if (ab.left instanceof Token) flags |= IS_TOKEN_FLAG; if (ab.isStartInclusive()) flags |= START_INCLUSIVE_FLAG; if (ab.isEndInclusive()) flags |= END_INCLUSIVE_FLAG; return flags; }
private static int kindFlags(AbstractBounds<?> ab) { int flags = 0; if (ab.left instanceof Token) flags |= IS_TOKEN_FLAG; if (ab.isStartInclusive()) flags |= START_INCLUSIVE_FLAG; if (ab.isEndInclusive()) flags |= END_INCLUSIVE_FLAG; return flags; }
private static int kindFlags(AbstractBounds<?> ab) { int flags = 0; if (ab.left instanceof Token) flags |= IS_TOKEN_FLAG; if (ab.isStartInclusive()) flags |= START_INCLUSIVE_FLAG; if (ab.isEndInclusive()) flags |= END_INCLUSIVE_FLAG; return flags; }
private static int kindFlags(AbstractBounds<?> ab) { int flags = 0; if (ab.left instanceof Token) flags |= IS_TOKEN_FLAG; if (ab.isStartInclusive()) flags |= START_INCLUSIVE_FLAG; if (ab.isEndInclusive()) flags |= END_INCLUSIVE_FLAG; return flags; }
public String toCQLString(CFMetaData metadata) { if (isUnrestricted()) return "UNRESTRICTED"; StringBuilder sb = new StringBuilder(); boolean needAnd = false; if (!startKey().isMinimum()) { appendClause(startKey(), sb, metadata, true, keyRange.isStartInclusive()); needAnd = true; } if (!stopKey().isMinimum()) { if (needAnd) sb.append(" AND "); appendClause(stopKey(), sb, metadata, false, keyRange.isEndInclusive()); needAnd = true; } String filterString = clusteringIndexFilter.toCQLString(metadata); if (!filterString.isEmpty()) sb.append(needAnd ? " AND " : "").append(filterString); return sb.toString(); }
public String toCQLString(CFMetaData metadata) { if (isUnrestricted()) return "UNRESTRICTED"; StringBuilder sb = new StringBuilder(); boolean needAnd = false; if (!startKey().isMinimum()) { appendClause(startKey(), sb, metadata, true, keyRange.isStartInclusive()); needAnd = true; } if (!stopKey().isMinimum()) { if (needAnd) sb.append(" AND "); appendClause(stopKey(), sb, metadata, false, keyRange.isEndInclusive()); needAnd = true; } String filterString = clusteringIndexFilter.toCQLString(metadata); if (!filterString.isEmpty()) sb.append(needAnd ? " AND " : "").append(filterString); return sb.toString(); }
public String toCQLString(CFMetaData metadata) { if (isUnrestricted()) return "UNRESTRICTED"; StringBuilder sb = new StringBuilder(); boolean needAnd = false; if (!startKey().isMinimum()) { appendClause(startKey(), sb, metadata, true, keyRange.isStartInclusive()); needAnd = true; } if (!stopKey().isMinimum()) { if (needAnd) sb.append(" AND "); appendClause(stopKey(), sb, metadata, false, keyRange.isEndInclusive()); needAnd = true; } String filterString = clusteringIndexFilter.toCQLString(metadata); if (!filterString.isEmpty()) sb.append(needAnd ? " AND " : "").append(filterString); return sb.toString(); }
public String toCQLString(CFMetaData metadata) { if (isUnrestricted()) return "UNRESTRICTED"; StringBuilder sb = new StringBuilder(); boolean needAnd = false; if (!startKey().isMinimum()) { appendClause(startKey(), sb, metadata, true, keyRange.isStartInclusive()); needAnd = true; } if (!stopKey().isMinimum()) { if (needAnd) sb.append(" AND "); appendClause(stopKey(), sb, metadata, false, keyRange.isEndInclusive()); needAnd = true; } String filterString = clusteringIndexFilter.toCQLString(metadata); if (!filterString.isEmpty()) sb.append(needAnd ? " AND " : "").append(filterString); return sb.toString(); }