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authorKarl Berry <karl@freefriends.org>2009-05-16 00:19:13 +0000
committerKarl Berry <karl@freefriends.org>2009-05-16 00:19:13 +0000
commitbab45528d65eaafe68a705dbb2a57075c7b7cbd8 (patch)
tree10b4ae2b5195c8dede153ab89359ec00f55f325f /Build/source/utils/asymptote/simpson.cc
parent8643d90372e9c31e0f461c15c596b60a545bd7d3 (diff)
asymptote 1.72 sources (not integrated into build yet)
git-svn-id: svn://tug.org/texlive/trunk@13110 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build/source/utils/asymptote/simpson.cc')
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1 files changed, 221 insertions, 0 deletions
diff --git a/Build/source/utils/asymptote/simpson.cc b/Build/source/utils/asymptote/simpson.cc
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+#include <cmath>
+#include <cassert>
+#include <cfloat>
+
+// Compute a numerical approximation to an integral via adaptive Simpson's Rule
+// This routine ignores underflow.
+
+const int nest=DBL_MANT_DIG;
+
+typedef struct {
+ bool left; // left interval?
+ double psum, f1t, f2t, f3t, dat, estr;
+} TABLE;
+
+bool // Returns true iff successful.
+simpson(double& integral, // Approximate value of the integral.
+ double (*f)(double), // Pointer to function to be integrated.
+ double a, double b, // Lower, upper limits of integration (a <= b).
+ double acc, // Desired relative accuracy of integral.
+ // Try to make |error| <= acc*abs(integral).
+ double dxmax) // Maximum limit on the width of a subinterval
+// For periodic functions, dxmax should be
+// set to the period or smaller to prevent
+// premature convergence of Simpson's rule.
+{
+ double diff,area,estl,estr,alpha,da,dx,wt,est,fv[5];
+ TABLE table[nest],*p,*pstop;
+ static const double sixth=1.0/6.0;
+
+ bool success=true;
+ p=table;
+ pstop=table+nest-1;
+ p->left=true;
+ p->psum=0.0;
+ alpha=a;
+ da=b-a;
+ fv[0]=(*f)(alpha);
+ fv[2]=(*f)(alpha+0.5*da);
+ fv[4]=(*f)(alpha+da);
+ wt=sixth*da;
+ est=wt*(fv[0]+4.0*fv[2]+fv[4]);
+ area=est;
+
+ // Have estimate est of integral on (alpha, alpha+da).
+ // Bisect and compute estimates on left and right half intervals.
+ // integral is the best value for the integral.
+
+ for(;;) {
+ dx=0.5*da;
+ double arg=alpha+0.5*dx;
+ fv[1]=(*f)(arg);
+ fv[3]=(*f)(arg+dx);
+ wt=sixth*dx;
+ estl=wt*(fv[0]+4.0*fv[1]+fv[2]);
+ estr=wt*(fv[2]+4.0*fv[3]+fv[4]);
+ integral=estl+estr;
+ diff=est-integral;
+ area -= diff;
+
+ if(p >= pstop) success=false;
+ if(!success || (fabs(diff) <= acc*fabs(area) && da <= dxmax)) {
+ // Accept approximate integral.
+ // If it was a right interval, add results to finish at this level.
+ // If it was a left interval, process right interval.
+
+ for(;;) {
+ if(p->left == false) { // process right-half interval
+ alpha += da;
+ p->left=true;
+ p->psum=integral;
+ fv[0]=p->f1t;
+ fv[2]=p->f2t;
+ fv[4]=p->f3t;
+ da=p->dat;
+ est=p->estr;
+ break;
+ }
+ integral += p->psum;
+ if(--p <= table) return success;
+ }
+
+ } else {
+ // Raise level and store information for processing right-half interval.
+ ++p;
+ da=dx;
+ est=estl;
+ p->left=false;
+ p->f1t=fv[2];
+ p->f2t=fv[3];
+ p->f3t=fv[4];
+ p->dat=dx;
+ p->estr=estr;
+ fv[4]=fv[2];
+ fv[2]=fv[1];
+ }
+ }
+}
+
+// Use adaptive Simpson integration to determine the upper limit of
+// integration required to make the definite integral of a continuous
+// non-negative function close to a user specified sum.
+// This routine ignores underflow.
+
+bool // Returns true iff successful.
+unsimpson(double integral, // Given value for the integral.
+ double (*f)(double), // Pointer to function to be integrated.
+ double a, double& b, // Lower, upper limits of integration (a <= b).
+ // The value of b provided on entry is used
+ // as an initial guess; somewhat faster if the
+ // given value is an underestimation.
+ double acc, // Desired relative accuracy of b.
+ // Try to make |integral-area| <= acc*integral.
+ double& area, // Computed integral of f(x) on [a,b].
+ double dxmax, // Maximum limit on the width of a subinterval
+ // For periodic functions, dxmax should be
+ // set to the period or smaller to prevent
+ // premature convergence of Simpson's rule.
+ double dxmin=0) // Lower limit on sampling width.
+{
+ double diff,estl,estr,alpha,da,dx,wt,est,fv[5];
+ double sum,parea,pdiff,b2;
+ TABLE table[nest],*p,*pstop;
+ static const double sixth=1.0/6.0;
+
+ p=table;
+ pstop=table+nest-1;
+ p->psum=0.0;
+ alpha=a;
+ parea=0.0;
+ pdiff=0.0;
+
+ for(;;) {
+ p->left=true;
+ da=b-alpha;
+ fv[0]=(*f)(alpha);
+ fv[2]=(*f)(alpha+0.5*da);
+ fv[4]=(*f)(alpha+da);
+ wt=sixth*da;
+ est=wt*(fv[0]+4.0*fv[2]+fv[4]);
+ area=est;
+
+ // Have estimate est of integral on (alpha, alpha+da).
+ // Bisect and compute estimates on left and right half intervals.
+ // Sum is better value for integral.
+
+ bool cont=true;
+ while(cont) {
+ dx=0.5*da;
+ double arg=alpha+0.5*dx;
+ fv[1]=(*f)(arg);
+ fv[3]=(*f)(arg+dx);
+ wt=sixth*dx;
+ estl=wt*(fv[0]+4.0*fv[1]+fv[2]);
+ estr=wt*(fv[2]+4.0*fv[3]+fv[4]);
+ sum=estl+estr;
+ diff=est-sum;
+
+ assert(sum >= 0.0);
+ area=parea+sum;
+ b2=alpha+da;
+ if(fabs(fabs(integral-area)-fabs(pdiff))+fabs(diff) <= fv[4]*acc*(b2-a)){
+ b=b2;
+ return true;
+ }
+ if(fabs(integral-area) > fabs(pdiff+diff)) {
+ if(integral <= area) {
+ p=table;
+ p->left=true;
+ p->psum=parea;
+ } else {
+ if((fabs(diff) <= fv[4]*acc*da || dx <= dxmin) && da <= dxmax) {
+ // Accept approximate integral sum.
+ // If it was a right interval, add results to finish at this level.
+ // If it was a left interval, process right interval.
+
+ pdiff += diff;
+ for(;;) {
+ if(p->left == false) { // process right-half interval
+ parea += sum;
+ alpha += da;
+ p->left=true;
+ p->psum=sum;
+ fv[0]=p->f1t;
+ fv[2]=p->f2t;
+ fv[4]=p->f3t;
+ da=p->dat;
+ est=p->estr;
+ break;
+ }
+ sum += p->psum;
+ parea -= p->psum;
+ if(--p <= table) {
+ p=table;
+ p->psum=parea=sum;
+ alpha += da;
+ b += b-a;
+ cont=false;
+ break;
+ }
+ }
+ continue;
+ }
+ }
+ }
+ if(p >= pstop) return false;
+// Raise level and store information for processing right-half interval.
+ ++p;
+ da=dx;
+ est=estl;
+ p->psum=0.0;
+ p->left=false;
+ p->f1t=fv[2];
+ p->f2t=fv[3];
+ p->f3t=fv[4];
+ p->dat=dx;
+ p->estr=estr;
+ fv[4]=fv[2];
+ fv[2]=fv[1];
+ }
+ }
+}