// Test Expondist
System.out.println("Testing Expondist");
// Test special cases
beta=1.0; u=0.0;
Expondist norm1=new Expondist(beta);
localflag = abs(norm1.p(u)-1.0) > sbeps;
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Special case #1 failed");
}
beta=1.0; u=1.0;
Expondist norm2=new Expondist(beta);
localflag = abs(norm2.p(u)-exp(-1.0)) > sbeps;
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Special case #2 failed");
}
beta=2.0; u=0.0;
Expondist norm3=new Expondist(beta);
localflag = abs(norm3.p(u)-2.0) > sbeps;
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Special case #3 failed");
}
beta=2.0; u=1.0;
Expondist norm4=new Expondist(beta);
localflag = abs(norm4.p(u)-2.0*exp(-2.0)) > sbeps;
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Special case #4 failed");
}
// integral of distribution is one
sbeps=1.e-8;
beta=1.5;
func_Expondist dist =new func_Expondist(beta);
Midpnt q2 = new Midpnt(dist,0.0,4.0);
Midinf q3 = new Midinf(dist,4.0,1.0e99);
integral=qromo(q2)+qromo(q3);
localflag = abs(1.0-integral) > sbeps;
// System.out.printf(setprecision(15) << 1.0-integral);
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Distribution is not normalized to 1.0");
}
// cdf agrees with incomplete integral
sbeps=1.e-7;
beta=1.5;
func_Expondist dist2 = new func_Expondist(beta);
Expondist normcdf=new Expondist(beta);
localflag=false;
for (i=0;i<N;i++) {
q2 = new Midpnt(dist2,0.0,x[i]);
integral=qromo(q2);
c[i]=integral;
d[i]=normcdf.cdf(x[i]);
// System.out.printf(c[i]-d[i]);
localflag = localflag || abs(c[i]-d[i]) > sbeps;
}
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: cdf does not agree with result of quadrature");
}
// inverse cdf agrees with cdf
beta=1.5;
Expondist normc=new Expondist(beta);
Ran myran=new Ran(17);
sbeps=5.0e-14;
localflag=false;
for (i=0;i<1000;i++) {
u=3.0*myran.doub();
a=normc.cdf(u);
b=normc.invcdf(a);
// if (abs(u-b) > sbeps) {
// System.out.printf(setprecision(15) << u << " %f\n", b << " %f\n", abs(u-b));
// }
localflag = localflag || abs(u-b) > sbeps;
}
globalflag = globalflag || localflag;
if (localflag) {
fail("*** Expondist: Inverse cdf does not accurately invert the cdf");
}
// Fingerprint test
beta=1.5;
Expondist normf=new Expondist(beta);
for (i=0;i<N;i++) {
p[i]=normf.p(x[i]);
// System.out.printf(setprecision(17) << p[i] << " %f\n", pexp[i]);
}
// System.out.println("Expondist: Maximum discrepancy = %f\n", maxel(vecsub(p,pexp)));
localflag = maxel(vecsub(p,pexp)) > sbeps;
globalflag = globalflag || localflag;