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G4ErrorSymMatrix.hh File Reference
#include <vector>
#include "G4ErrorSymMatrix.icc"
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Classes

class  G4ErrorSymMatrix
 
class  G4ErrorSymMatrix::G4ErrorSymMatrix_row
 
class  G4ErrorSymMatrix::G4ErrorSymMatrix_row_const
 

Functions

std::ostream & operator<< (std::ostream &s, const G4ErrorSymMatrix &q)
 
G4ErrorMatrix operator* (const G4ErrorMatrix &m1, const G4ErrorSymMatrix &m2)
 
G4ErrorMatrix operator* (const G4ErrorSymMatrix &m1, const G4ErrorMatrix &m2)
 
G4ErrorMatrix operator* (const G4ErrorSymMatrix &m1, const G4ErrorSymMatrix &m2)
 
G4ErrorSymMatrix operator* (G4double t, const G4ErrorSymMatrix &s1)
 
G4ErrorSymMatrix operator* (const G4ErrorSymMatrix &s1, G4double t)
 
G4ErrorSymMatrix operator/ (const G4ErrorSymMatrix &m1, G4double t)
 
G4ErrorMatrix operator+ (const G4ErrorMatrix &m1, const G4ErrorSymMatrix &s2)
 
G4ErrorMatrix operator+ (const G4ErrorSymMatrix &s1, const G4ErrorMatrix &m2)
 
G4ErrorSymMatrix operator+ (const G4ErrorSymMatrix &s1, const G4ErrorSymMatrix &s2)
 
G4ErrorMatrix operator- (const G4ErrorMatrix &m1, const G4ErrorSymMatrix &s2)
 
G4ErrorMatrix operator- (const G4ErrorSymMatrix &m1, const G4ErrorMatrix &m2)
 
G4ErrorSymMatrix operator- (const G4ErrorSymMatrix &s1, const G4ErrorSymMatrix &s2)
 
G4ErrorSymMatrix dsum (const G4ErrorSymMatrix &s1, const G4ErrorSymMatrix &s2)
 
G4double condition (const G4ErrorSymMatrix &m)
 
void diag_step (G4ErrorSymMatrix *t, G4int begin, G4int end)
 
void diag_step (G4ErrorSymMatrix *t, G4ErrorMatrix *u, G4int begin, G4int end)
 
G4ErrorMatrix diagonalize (G4ErrorSymMatrix *s)
 
void house_with_update2 (G4ErrorSymMatrix *a, G4ErrorMatrix *v, G4int row=1, G4int col=1)
 
void tridiagonal (G4ErrorSymMatrix *a, G4ErrorMatrix *hsm)
 
G4ErrorMatrix tridiagonal (G4ErrorSymMatrix *a)
 

Function Documentation

G4double condition ( const G4ErrorSymMatrix m)
void diag_step ( G4ErrorSymMatrix t,
G4int  begin,
G4int  end 
)
void diag_step ( G4ErrorSymMatrix t,
G4ErrorMatrix u,
G4int  begin,
G4int  end 
)
G4ErrorMatrix diagonalize ( G4ErrorSymMatrix s)
G4ErrorSymMatrix dsum ( const G4ErrorSymMatrix s1,
const G4ErrorSymMatrix s2 
)

Definition at line 183 of file G4ErrorSymMatrix.cc.

185 {
186  G4ErrorSymMatrix mret(mat1.num_row() + mat2.num_row(), 0);
187  mret.sub(1,mat1);
188  mret.sub(mat1.num_row()+1,mat2);
189  return mret;
190 }
G4ErrorSymMatrix sub(G4int min_row, G4int max_row) const

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void house_with_update2 ( G4ErrorSymMatrix a,
G4ErrorMatrix v,
G4int  row = 1,
G4int  col = 1 
)
G4ErrorMatrix operator* ( const G4ErrorMatrix m1,
const G4ErrorSymMatrix m2 
)

Definition at line 287 of file G4ErrorSymMatrix.cc.

288 {
289  G4ErrorMatrix mret(mat1.num_row(),mat2.num_col());
290  CHK_DIM_1(mat1.num_col(),mat2.num_row(),*);
291  G4ErrorMatrixConstIter mit1, mit2, sp,snp; //mit2=0
292  G4double temp;
293  G4ErrorMatrixIter mir=mret.m.begin();
294  for(mit1=mat1.m.begin();
295  mit1<mat1.m.begin()+mat1.num_row()*mat1.num_col();
296  mit1 = mit2)
297  {
298  snp=mat2.m.begin();
299  for(int step=1;step<=mat2.num_row();++step)
300  {
301  mit2=mit1;
302  sp=snp;
303  snp+=step;
304  temp=0;
305  while(sp<snp) // Loop checking, 06.08.2015, G.Cosmo
306  { temp+=*(sp++)*(*(mit2++)); }
307  if( step<mat2.num_row() ) { // only if we aren't on the last row
308  sp+=step-1;
309  for(int stept=step+1;stept<=mat2.num_row();stept++)
310  {
311  temp+=*sp*(*(mit2++));
312  if(stept<mat2.num_row()) sp+=stept;
313  }
314  } // if(step
315  *(mir++)=temp;
316  } // for(step
317  } // for(mit1
318  return mret;
319 }
std::vector< G4double >::const_iterator G4ErrorMatrixConstIter
#define CHK_DIM_1(c1, r2, fun)
std::vector< G4double >::iterator G4ErrorMatrixIter
double G4double
Definition: G4Types.hh:76

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G4ErrorMatrix operator* ( const G4ErrorSymMatrix m1,
const G4ErrorMatrix m2 
)

Definition at line 321 of file G4ErrorSymMatrix.cc.

322 {
323  G4ErrorMatrix mret(mat1.num_row(),mat2.num_col());
324  CHK_DIM_1(mat1.num_col(),mat2.num_row(),*);
325  G4int step,stept;
326  G4ErrorMatrixConstIter mit1,mit2,sp,snp;
327  G4double temp;
328  G4ErrorMatrixIter mir=mret.m.begin();
329  for(step=1,snp=mat1.m.begin();step<=mat1.num_row();snp+=step++)
330  {
331  for(mit1=mat2.m.begin();mit1<mat2.m.begin()+mat2.num_col();mit1++)
332  {
333  mit2=mit1;
334  sp=snp;
335  temp=0;
336  while(sp<snp+step) // Loop checking, 06.08.2015, G.Cosmo
337  {
338  temp+=*mit2*(*(sp++));
339  mit2+=mat2.num_col();
340  }
341  sp+=step-1;
342  for(stept=step+1;stept<=mat1.num_row();stept++)
343  {
344  temp+=*mit2*(*sp);
345  mit2+=mat2.num_col();
346  sp+=stept;
347  }
348  *(mir++)=temp;
349  }
350  }
351  return mret;
352 }
int G4int
Definition: G4Types.hh:78
std::vector< G4double >::const_iterator G4ErrorMatrixConstIter
#define CHK_DIM_1(c1, r2, fun)
std::vector< G4double >::iterator G4ErrorMatrixIter
double G4double
Definition: G4Types.hh:76

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G4ErrorMatrix operator* ( const G4ErrorSymMatrix m1,
const G4ErrorSymMatrix m2 
)

Definition at line 354 of file G4ErrorSymMatrix.cc.

355 {
356  G4ErrorMatrix mret(mat1.num_row(),mat1.num_row());
357  CHK_DIM_1(mat1.num_col(),mat2.num_row(),*);
358  G4int step1,stept1,step2,stept2;
359  G4ErrorMatrixConstIter snp1,sp1,snp2,sp2;
360  G4double temp;
361  G4ErrorMatrixIter mr = mret.m.begin();
362  for(step1=1,snp1=mat1.m.begin();step1<=mat1.num_row();snp1+=step1++)
363  {
364  for(step2=1,snp2=mat2.m.begin();step2<=mat2.num_row();)
365  {
366  sp1=snp1;
367  sp2=snp2;
368  snp2+=step2;
369  temp=0;
370  if(step1<step2)
371  {
372  while(sp1<snp1+step1) // Loop checking, 06.08.2015, G.Cosmo
373  { temp+=(*(sp1++))*(*(sp2++)); }
374  sp1+=step1-1;
375  for(stept1=step1+1;stept1!=step2+1;sp1+=stept1++)
376  { temp+=(*sp1)*(*(sp2++)); }
377  sp2+=step2-1;
378  for(stept2=++step2;stept2<=mat2.num_row();sp1+=stept1++,sp2+=stept2++)
379  { temp+=(*sp1)*(*sp2); }
380  }
381  else
382  {
383  while(sp2<snp2) // Loop checking, 06.08.2015, G.Cosmo
384  { temp+=(*(sp1++))*(*(sp2++)); }
385  sp2+=step2-1;
386  for(stept2=++step2;stept2!=step1+1;sp2+=stept2++)
387  { temp+=(*(sp1++))*(*sp2); }
388  sp1+=step1-1;
389  for(stept1=step1+1;stept1<=mat1.num_row();sp1+=stept1++,sp2+=stept2++)
390  { temp+=(*sp1)*(*sp2); }
391  }
392  *(mr++)=temp;
393  }
394  }
395  return mret;
396 }
int G4int
Definition: G4Types.hh:78
std::vector< G4double >::const_iterator G4ErrorMatrixConstIter
#define CHK_DIM_1(c1, r2, fun)
std::vector< G4double >::iterator G4ErrorMatrixIter
double G4double
Definition: G4Types.hh:76

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G4ErrorSymMatrix operator* ( G4double  t,
const G4ErrorSymMatrix s1 
)

Definition at line 280 of file G4ErrorSymMatrix.cc.

281 {
282  G4ErrorSymMatrix mret(mat1);
283  mret *= t;
284  return mret;
285 }
struct huft * t
Definition: csz_inflate.cc:252
G4ErrorSymMatrix operator* ( const G4ErrorSymMatrix s1,
G4double  t 
)

Definition at line 273 of file G4ErrorSymMatrix.cc.

274 {
275  G4ErrorSymMatrix mret(mat1);
276  mret *= t;
277  return mret;
278 }
struct huft * t
Definition: csz_inflate.cc:252
G4ErrorMatrix operator+ ( const G4ErrorMatrix m1,
const G4ErrorSymMatrix s2 
)

Definition at line 207 of file G4ErrorSymMatrix.cc.

208 {
209  G4ErrorMatrix mret(mat1);
210  CHK_DIM_2(mat1.num_row(),mat2.num_row(), mat1.num_col(),mat2.num_col(),+);
211  mret += mat2;
212  return mret;
213 }
#define CHK_DIM_2(r1, r2, c1, c2, fun)

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G4ErrorMatrix operator+ ( const G4ErrorSymMatrix s1,
const G4ErrorMatrix m2 
)

Definition at line 215 of file G4ErrorSymMatrix.cc.

216 {
217  G4ErrorMatrix mret(mat2);
218  CHK_DIM_2(mat1.num_row(),mat2.num_row(),mat1.num_col(),mat2.num_col(),+);
219  mret += mat1;
220  return mret;
221 }
#define CHK_DIM_2(r1, r2, c1, c2, fun)

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G4ErrorSymMatrix operator+ ( const G4ErrorSymMatrix s1,
const G4ErrorSymMatrix s2 
)

Definition at line 223 of file G4ErrorSymMatrix.cc.

225 {
226  G4ErrorSymMatrix mret(mat1.nrow);
227  CHK_DIM_1(mat1.nrow, mat2.nrow,+);
228  SIMPLE_TOP(+)
229  return mret;
230 }
#define SIMPLE_TOP(OPER)
#define CHK_DIM_1(c1, r2, fun)
G4ErrorMatrix operator- ( const G4ErrorMatrix m1,
const G4ErrorSymMatrix s2 
)

Definition at line 236 of file G4ErrorSymMatrix.cc.

237 {
238  G4ErrorMatrix mret(mat1);
239  CHK_DIM_2(mat1.num_row(),mat2.num_row(),mat1.num_col(),mat2.num_col(),-);
240  mret -= mat2;
241  return mret;
242 }
#define CHK_DIM_2(r1, r2, c1, c2, fun)

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G4ErrorMatrix operator- ( const G4ErrorSymMatrix m1,
const G4ErrorMatrix m2 
)

Definition at line 244 of file G4ErrorSymMatrix.cc.

245 {
246  G4ErrorMatrix mret(mat1);
247  CHK_DIM_2(mat1.num_row(),mat2.num_row(),mat1.num_col(),mat2.num_col(),-);
248  mret -= mat2;
249  return mret;
250 }
#define CHK_DIM_2(r1, r2, c1, c2, fun)

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G4ErrorSymMatrix operator- ( const G4ErrorSymMatrix s1,
const G4ErrorSymMatrix s2 
)

Definition at line 252 of file G4ErrorSymMatrix.cc.

254 {
255  G4ErrorSymMatrix mret(mat1.num_row());
256  CHK_DIM_1(mat1.num_row(),mat2.num_row(),-);
257  SIMPLE_TOP(-)
258  return mret;
259 }
#define SIMPLE_TOP(OPER)
#define CHK_DIM_1(c1, r2, fun)

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G4ErrorSymMatrix operator/ ( const G4ErrorSymMatrix m1,
G4double  t 
)

Definition at line 266 of file G4ErrorSymMatrix.cc.

267 {
268  G4ErrorSymMatrix mret(mat1);
269  mret /= t;
270  return mret;
271 }
struct huft * t
Definition: csz_inflate.cc:252
std::ostream& operator<< ( std::ostream &  s,
const G4ErrorSymMatrix q 
)

Definition at line 524 of file G4ErrorSymMatrix.cc.

525 {
526  os << G4endl;
527 
528  // Fixed format needs 3 extra characters for field,
529  // while scientific needs 7
530 
531  G4int width;
532  if(os.flags() & std::ios::fixed)
533  {
534  width = os.precision()+3;
535  }
536  else
537  {
538  width = os.precision()+7;
539  }
540  for(G4int irow = 1; irow<= q.num_row(); irow++)
541  {
542  for(G4int icol = 1; icol <= q.num_col(); icol++)
543  {
544  os.width(width);
545  os << q(irow,icol) << " ";
546  }
547  os << G4endl;
548  }
549  return os;
550 }
G4int num_col() const
int G4int
Definition: G4Types.hh:78
G4int num_row() const
#define G4endl
Definition: G4ios.hh:61

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void tridiagonal ( G4ErrorSymMatrix a,
G4ErrorMatrix hsm 
)
G4ErrorMatrix tridiagonal ( G4ErrorSymMatrix a)