54 if(!_coefsCalculated) {
55 calculateCoefs(MaxDimension);
56 _coefsCalculated=
kTRUE;
59 _nextq=
new Int_t[MaxDimension];
79 for(
Int_t dim= 0; dim < MaxDimension; dim++) _nextq[dim]= 0;
90 static const Double_t recip = 1.0/(double)(1U << NBits);
93 for(dim=0; dim < dimension; dim++) {
94 vector[dim] = _nextq[dim] * recip;
115 for(dim=0; dim<dimension; dim++) {
116 _nextq[dim] ^= _cj[
r][dim];
129 int ci[NBits][NBits];
130 int v[NBits+MaxDegree+1];
134 for(i_dim=0; i_dim<dimension; i_dim++) {
136 const int poly_index = i_dim + 1;
155 int px_degree = _polyDegree[poly_index];
158 for(k=0; k<=px_degree; k++) {
159 px[k] = _primitivePoly[poly_index][k];
164 for(j=0; j<NBits; j++) {
169 if(u == 0) calculateV(px, px_degree, pb, &pb_degree, v, NBits+MaxDegree);
177 for(r=0; r<NBits; r++) {
183 if(u == px_degree) u = 0;
190 for(r=0; r<NBits; r++) {
192 for(j=0; j<NBits; j++) {
193 term = 2*term + ci[
r][j];
195 _cj[
r][i_dim] = term;
206 int pb[],
int * pb_degree,
int v[],
int maxv)
208 const int nonzero_element = 1;
209 const int arbitrary_element = 1;
217 int bigm = *pb_degree;
221 for(k=0; k<=MaxDegree; k++) {
229 polyMultiply(px, px_degree, pb, *pb_degree, pb, pb_degree);
248 for(r=0; r<kj; r++) {
255 for(r=kj+1; r<
m; r++) {
256 v[
r] = arbitrary_element;
262 int term = sub(0, ph[kj]);
264 for(r=kj+1; r<bigm; r++) {
265 v[
r] = arbitrary_element;
270 term = sub(term, mul(ph[r], v[r]));
274 v[bigm] = add(nonzero_element, term);
276 for(r=bigm+1; r<
m; r++) {
277 v[
r] = arbitrary_element;
284 for(r=0; r<=maxv-
m; r++) {
287 term = sub(term, mul(pb[k], v[r+k]));
298 int pb_degree,
int pc[],
int * pc_degree)
302 int pt_degree = pa_degree + pb_degree;
304 for(k=0; k<=pt_degree; k++) {
306 for(j=0; j<=k; j++) {
307 const int conv_term = mul(pa[k-j], pb[j]);
308 term = add(term, conv_term);
313 for(k=0; k<=pt_degree; k++) {
316 for(k=pt_degree+1; k<=MaxDegree; k++) {
320 *pc_degree = pt_degree;
339 { 1, 0, 0, 0, 0, 0 },
340 { 0, 1, 0, 0, 0, 0 },
341 { 1, 1, 0, 0, 0, 0 },
342 { 1, 1, 1, 0, 0, 0 },
343 { 1, 1, 0, 1, 0, 0 },
344 { 1, 0, 1, 1, 0, 0 },
345 { 1, 1, 0, 0, 1, 0 },
346 { 1, 0, 0, 1, 1, 0 },
347 { 1, 1, 1, 1, 1, 0 },
348 { 1, 0, 1, 0, 0, 1 },
349 { 1, 0, 0, 1, 0, 1 },
350 { 1, 1, 1, 1, 0, 1 },
360 0, 1, 1, 2, 3, 3, 4, 4, 4, 5, 5, 5, 5
static const Int_t _polyDegree[MaxDimension+1]
static const Int_t _primitivePoly[MaxDimension+1][MaxPrimitiveDegree+1]
RooQuasiRandomGenerator()
Perform one-time initialization of our static coefficient array if necessary and initialize our works...
virtual ~RooQuasiRandomGenerator()
Destructor.
Bool_t generate(UInt_t dimension, Double_t vector[])
Generate the next number in the sequence for the specified dimension.
static Bool_t _coefsCalculated
void reset()
Reset the workspace to its initial state.
Mother of all ROOT objects.
This class generates the quasi-random (aka "low discrepancy") sequence for dimensions up to 12 using ...
void polyMultiply(const int pa[], int pa_degree, const int pb[], int pb_degree, int pc[], int *pc_degree)
Internal function.
static Int_t _cj[NBits][MaxDimension]
static constexpr double pc
void calculateV(const int px[], int px_degree, int pb[], int *pb_degree, int v[], int maxv)
Internal function.
void calculateCoefs(UInt_t dimension)
Calculate the coefficients for the given number of dimensions.