sessionState.out.printf(" Default time to live: %s%n", cf_def.default_time_to_live); sessionState.out.printf(" Bloom Filter FP chance: %s%n", cf_def.isSetBloom_filter_fp_chance() ? cf_def.bloom_filter_fp_chance : "default"); sessionState.out.printf(" Index interval: %s%n", cf_def.isSetIndex_interval() ? cf_def.index_interval : "default"); sessionState.out.printf(" Speculative Retry: %s%n", cf_def.speculative_retry);
if (cfDef.isSetIndex_interval()) writeAttr(output, false, "index_interval", cfDef.index_interval);
first = false; if (isSetIndex_interval()) { if (!first) sb.append(", "); sb.append("index_interval:");
builder.append(populate_io_cache_on_flush); boolean present_index_interval = true && (isSetIndex_interval()); builder.append(present_index_interval); if (present_index_interval)
builder.append(populate_io_cache_on_flush); boolean present_index_interval = true && (isSetIndex_interval()); builder.append(present_index_interval); if (present_index_interval)
builder.append(populate_io_cache_on_flush); boolean present_index_interval = true && (isSetIndex_interval()); builder.append(present_index_interval); if (present_index_interval)
oprot.writeFieldEnd(); if (struct.isSetIndex_interval()) { oprot.writeFieldBegin(INDEX_INTERVAL_FIELD_DESC); oprot.writeI32(struct.index_interval);
oprot.writeFieldEnd(); if (struct.isSetIndex_interval()) { oprot.writeFieldBegin(INDEX_INTERVAL_FIELD_DESC); oprot.writeI32(struct.index_interval);
oprot.writeFieldEnd(); if (struct.isSetIndex_interval()) { oprot.writeFieldBegin(INDEX_INTERVAL_FIELD_DESC); oprot.writeI32(struct.index_interval);
if (cf_def.isSetIndex_interval()) cf_def.setMin_index_interval(cf_def.getIndex_interval()); else
if (cf_def.isSetIndex_interval()) cf_def.setMin_index_interval(cf_def.getIndex_interval()); else
if (cf_def.isSetIndex_interval()) cf_def.setMin_index_interval(cf_def.getIndex_interval()); else
optionals.set(37); if (struct.isSetIndex_interval()) { optionals.set(38); oprot.writeBool(struct.populate_io_cache_on_flush); if (struct.isSetIndex_interval()) { oprot.writeI32(struct.index_interval);
optionals.set(37); if (struct.isSetIndex_interval()) { optionals.set(38); oprot.writeBool(struct.populate_io_cache_on_flush); if (struct.isSetIndex_interval()) { oprot.writeI32(struct.index_interval);
optionals.set(37); if (struct.isSetIndex_interval()) { optionals.set(38); oprot.writeBool(struct.populate_io_cache_on_flush); if (struct.isSetIndex_interval()) { oprot.writeI32(struct.index_interval);
boolean this_present_index_interval = true && this.isSetIndex_interval(); boolean that_present_index_interval = true && that.isSetIndex_interval(); if (this_present_index_interval || that_present_index_interval) { if (!(this_present_index_interval && that_present_index_interval))
boolean this_present_index_interval = true && this.isSetIndex_interval(); boolean that_present_index_interval = true && that.isSetIndex_interval(); if (this_present_index_interval || that_present_index_interval) { if (!(this_present_index_interval && that_present_index_interval))
return isSetPopulate_io_cache_on_flush(); case INDEX_INTERVAL: return isSetIndex_interval();
return isSetPopulate_io_cache_on_flush(); case INDEX_INTERVAL: return isSetIndex_interval();
return isSetPopulate_io_cache_on_flush(); case INDEX_INTERVAL: return isSetIndex_interval();