double broadcastDiffSum;
unsigned int broadcastNb;
+ // MessageStats messageStats[traceNb][traceNb]
MessageStats** messageStats;
+
/* double* exchangeRtt[RttKey]
* For this table, saddr and daddr are swapped as necessary such that
* saddr < daddr */
GHashTable* exchangeRtt;
} AnalysisStatsEval;
+
+#define BIN_NB 1001
+struct Bins
+{
+ // index of min and max bins that are != 0
+ uint32_t min, max;
+ // sum of all bins
+ uint32_t total;
+ /* bin[0]: underflow ]-INFINITY..0[
+ * bin[1]: [0..1e-6[
+ * rest defined exponentially, see binStart()
+ * bin[BIN_NB - 1]: overflow [1..INFINITY[ */
+ uint32_t bin[BIN_NB];
+};
+
+
+typedef struct
+{
+ /* File pointers to files where "trip times" (message latency) histogram
+ * values are outputted. Each host-pair has two files, one for each
+ * message direction. As for traces, the host with the smallest address
+ * is considered to be the reference for the direction of messages (ie.
+ * messages from the host with the lowest address to the host with the
+ * largest address are "sent"). */
+ FILE* ttSendPoints;
+ FILE* ttRecvPoints;
+
+ struct Bins ttSendBins;
+ struct Bins ttRecvBins;
+
+ /* File pointers to files where half round trip times (evaluated from
+ * exchanges) histogram values are outputted. */
+ FILE* hrttPoints;
+
+ struct Bins hrttBins;
+} AnalysisGraphEval;
+
typedef struct
{
// double* rttInfo[RttKey]
GHashTable* rttInfo;
AnalysisStatsEval* stats;
+ /* AnalysisGraphsEval* graphs[RttKey];
+ * For this table, saddr and daddr are swapped as necessary such that
+ * saddr < daddr */
+ GHashTable* graphs;
} AnalysisDataEval;
#endif