A few smaller tweaks.

src/CMakeLists.txt

@@ -320,6 +320,7 @@ set(bro_SRCS
     PrefixTable.cc
     PriorityQueue.cc
     Queue.cc
+    RandTest.cc
     RE.cc
     RPC.cc
     Reassem.cc

src/RandTest.cc

@@ -1,137 +1,13 @@
 /*
-
 	Apply various randomness tests to a stream of bytes
 
 		by John Walker  --  September 1996
-		       http://www.fourmilab.ch/
-
-	Modified for Bro by Seth Hall - July 2010
-*/
-
-#include <RandTest.h>
-
-RandTest::RandTest()
-	{
-	totalc = 0;
-	mp = 0;
-	sccfirst = 1;
-	inmont = mcount = 0;
-	cexp = montex = montey = montepi = sccu0 = scclast = scct1 = scct2 = scct3 = 0.0;
-	
-	for (int i = 0; i < 256; i++) 
-		{
-		ccount[i] = 0;
-		}
-	}
-
-void RandTest::add(void *buf, int bufl)
-	{
-	unsigned char *bp = (unsigned char*)buf;
-	int oc;
-
-	while (bufl-- > 0)
-		{
-		oc = *bp++;
-		ccount[oc]++;   /* Update counter for this bin */
-		totalc++;
-
-		/* Update inside / outside circle counts for Monte Carlo
- 		   computation of PI */
-		monte[mp++] = oc;  /* Save character for Monte Carlo */
-		if (mp >= RT_MONTEN)  /* Calculate every RT_MONTEN character */
-			{
-			mp = 0;
-			mcount++;
-			montex = 0;
-			montey = 0;
-			for (int mj=0; mj < RT_MONTEN/2; mj++) 
-				{
-				montex = (montex * 256.0) + monte[mj];
-				montey = (montey * 256.0) + monte[(RT_MONTEN / 2) + mj];
-				}
-			if (montex*montex + montey*montey <= RT_INCIRC)
-				{
-				inmont++;
-				}
-			}
-
-		/* Update calculation of serial correlation coefficient */
-		if (sccfirst)
-			{
-			sccfirst = 0;
-			scclast = 0;
-			sccu0 = oc;
-			} 
-		else 
-			{
-			scct1 = scct1 + scclast * oc;
-			}
-
-		scct2 = scct2 + oc;
-		scct3 = scct3 + (oc * oc);
-		scclast = oc;
-		oc <<= 1;
-		}
-	}
-
-void RandTest::end(double *r_ent, double *r_chisq,
-                   double *r_mean, double *r_montepicalc, double *r_scc)
-	{
-	int i;
-	double ent, chisq, scc, datasum;
-	ent = 0.0; chisq = 0.0; scc = 0.0; datasum = 0.0;
-	double prob[256];    /* Probabilities per bin for entropy */
-
-	/* Complete calculation of serial correlation coefficient */
-	scct1 = scct1 + scclast * sccu0;
-	scct2 = scct2 * scct2;
-	scc = totalc * scct3 - scct2;
-	if (scc == 0.0)
-	   scc = -100000;
-	else
-	   scc = (totalc * scct1 - scct2) / scc;
-	
-	/* Scan bins and calculate probability for each bin and
-	   Chi-Square distribution.  The probability will be reused
-	   in the entropy calculation below.  While we're at it,
-	   we sum of all the data which will be used to compute the
-	   mean. */
-	cexp = totalc / 256.0;  /* Expected count per bin */
-	for (i = 0; i < 256; i++) 
-		{
-		double a = ccount[i] - cexp;
-		
-		prob[i] = ((double) ccount[i]) / totalc;
-		chisq += (a * a) / cexp;
-		datasum += ((double) i) * ccount[i];
-		}
-	
-	/* Calculate entropy */
-	for (i = 0; i < 256; i++)
-		{
-		if (prob[i] > 0.0)
-			{
-			ent += prob[i] * rt_log2(1 / prob[i]);
-			}
-		}
-	
-	/* Calculate Monte Carlo value for PI from percentage of hits
-	   within the circle */
-	montepi = 4.0 * (((double) inmont) / mcount);
-	
-	/* Return results through arguments */
-	*r_ent = ent;
-	*r_chisq = chisq;
-	*r_mean = datasum / totalc;
-	*r_montepicalc = montepi;
-	*r_scc = scc;
-	}
-/*
-
-	 Apply various randomness tests to a stream of bytes
-
-		  by John Walker  --  September 1996
-		       http://www.fourmilab.ch/
+			http://www.fourmilab.ch/random
+
+		This software is in the public domain. Permission to use, copy, modify,
+		and distribute this software and its documentation for any purpose and
+		without fee is hereby granted, without any conditions or restrictions.
+		This software is provided “as is” without express or implied warranty.
 
 	Modified for Bro by Seth Hall - July 2010
 */

src/RandTest.h

@@ -15,40 +15,6 @@ static double rt_log2(double x)
 // RT_INCIRC = pow(pow(256.0, (double) (RT_MONTEN / 2)) - 1, 2.0);
 #define RT_INCIRC 281474943156225.0
 
-class RandTest {
-	public:
-		RandTest();
-		void add(void *buf, int bufl);
-		void end(double *r_ent, double *r_chisq, double *r_mean,
-		         double *r_montepicalc, double *r_scc);
-	
-	private:
-		long ccount[256];  /* Bins to count occurrences of values */
-		long totalc;       /* Total bytes counted */
-		int mp;
-		int sccfirst;
-		unsigned int monte[RT_MONTEN];
-		long inmont, mcount;
-		double cexp, montex, montey, montepi, 
-		       sccu0, scclast, scct1, scct2, scct3;
-	};
-#include <math.h>
-
-#define log2of10 3.32192809488736234787
-/*  RT_LOG2  --  Calculate log to the base 2  */
-static double rt_log2(double x)
-{
-    return log2of10 * log10(x);
-}
-
-#define RT_MONTEN 6  /* Bytes used as Monte Carlo
-                        co-ordinates. This should be no more
-                        bits than the mantissa of your "double"
-                        floating point type. */
-
-// RT_INCIRC = pow(pow(256.0, (double) (RT_MONTEN / 2)) - 1, 2.0);
-#define RT_INCIRC 281474943156225.0
-
 class RandTest {
 	public:
 		RandTest();

src/bro.bif

@@ -3261,8 +3261,7 @@ function entropy_test_finish%(index: any%): entropy_test_result
 
 	if ( entropy_states.count(*s) > 0 )
 		{
-		RandTest *rt;
-		rt = entropy_states[*s];
+		RandTest *rt = entropy_states[*s];
 		rt->end(&ent, &chisq, &mean, &montepi, &scc);
 		entropy_states.erase(*s);
 		delete rt;