38 G4int noIntegrationVariables,
42 const G4int numberOfVariables = noIntegrationVariables;
48 ak2 =
new G4double[numberOfVariables];
49 ak3 =
new G4double[numberOfVariables];
50 ak4 =
new G4double[numberOfVariables];
51 ak5 =
new G4double[numberOfVariables];
52 ak6 =
new G4double[numberOfVariables];
53 ak7 =
new G4double[numberOfVariables];
54 ak8 =
new G4double[numberOfVariables];
55 ak9 =
new G4double[numberOfVariables];
59 ak10 =
new G4double[numberOfVariables];
60 ak11 =
new G4double[numberOfVariables];
61 ak12 =
new G4double[numberOfVariables];
62 ak10_low =
new G4double[numberOfVariables];
64 const G4int numStateVars = std::max(noIntegrationVariables, 8);
68 fLastInitialVector =
new G4double[numStateVars] ;
69 fLastFinalVector =
new G4double[numStateVars] ;
71 fLastDyDx =
new G4double[numStateVars];
73 fMidVector =
new G4double[numStateVars];
74 fMidError =
new G4double[numStateVars];
105 delete [] fLastInitialVector;
106 delete [] fLastFinalVector;
108 delete [] fMidVector;
140 b43 = 1053.0/1372.0 ,
142 b51 = 3243.0/5500.0 ,
144 b53 = 50949.0/71500.0 ,
145 b54 = 4998.0/17875.0 ,
147 b61 = -26492.0/37125.0 ,
149 b63 = 2808.0/23375.0 ,
150 b64 = -24206.0/37125.0 ,
153 b71 = 5561.0/2376.0 ,
155 b73 = -24117.0/31603.0 ,
156 b74 = 899983.0/200772.0 ,
157 b75 = -5225.0/1836.0 ,
158 b76 = 3925.0/4056.0 ,
160 b81 = 465467.0/266112.0 ,
161 b82 = -2945.0/1232.0 ,
162 b83 = -5610201.0/14158144.0 ,
163 b84 = 10513573.0/3212352.0 ,
164 b85 = -424325.0/205632.0 ,
165 b86 = 376225.0/454272.0 ,
170 c3 = 98415.0/321776.0 ,
171 c4 = 16807.0/146016.0 ,
179 b93 = 98415.0/321776.0 ,
180 b94 = 16807.0/146016.0 ,
181 b95 = 1375.0/7344.0 ,
182 b96 = 1375.0/5408.0 ,
186 dc1 = c1 - 821.0/10800.0 ,
188 dc3 = c3 - 19683.0/71825,
189 dc4 = c4 - 175273.0/912600.0 ,
190 dc5 = c5 - 395.0/3672.0 ,
191 dc6 = c6 - 785.0/2704.0 ,
192 dc7 = c7 - 3.0/50.0 ,
265 yOut[7] = yTemp[7] = yIn[7] = yInput[7];
269 for(i=0; i<numberOfVariables; ++i)
275 for(i=0; i<numberOfVariables; ++i)
277 yTemp[i] = yIn[i] + b21*Step*dydx[i] ;
281 for(i=0; i<numberOfVariables; ++i)
283 yTemp[i] = yIn[i] + Step*(b31*dydx[i] + b32*ak2[i]) ;
287 for(i=0; i<numberOfVariables; ++i)
289 yTemp[i] = yIn[i] + Step*(b41*dydx[i] + b42*ak2[i] + b43*ak3[i]) ;
293 for(i=0; i<numberOfVariables; ++i)
295 yTemp[i] = yIn[i] + Step*(b51*dydx[i] + b52*ak2[i] + b53*ak3[i] +
300 for(i=0; i<numberOfVariables; ++i)
302 yTemp[i] = yIn[i] + Step*(b61*dydx[i] + b62*ak2[i] + b63*ak3[i] +
303 b64*ak4[i] + b65*ak5[i]) ;
307 for(i=0; i<numberOfVariables; ++i)
309 yTemp[i] = yIn[i] + Step*(b71*dydx[i] + b72*ak2[i] + b73*ak3[i] +
310 b74*ak4[i] + b75*ak5[i] + b76*ak6[i]);
314 for(i=0; i<numberOfVariables; ++i)
316 yTemp[i] = yIn[i] + Step*(b81*dydx[i] + b82*ak2[i] + b83*ak3[i] +
317 b84*ak4[i] + b85*ak5[i] + b86*ak6[i] +
322 for(i=0; i<numberOfVariables; ++i)
324 yOut[i] = yIn[i] + Step*(b91*dydx[i] + b92*ak2[i] + b93*ak3[i] +
325 b94*ak4[i] + b95*ak5[i] + b96*ak6[i] +
326 b97*ak7[i] + b98*ak8[i] );
331 for(i=0; i<numberOfVariables; ++i)
336 yErr[i] = Step*( dc1*dydx[i] + dc2*ak2[i] + dc3*ak3[i] + dc4*ak4[i]
337 + dc5*ak5[i] + dc6*ak6[i] + dc7*ak7[i] + dc8*ak8[i]
345 fLastInitialVector[i] = yIn[i] ;
346 fLastFinalVector[i] = yOut[i];
347 fLastDyDx[i] = dydx[i];
350 fLastStepLength = Step;
366 fLastInitialVector[1], fLastInitialVector[2]);
368 fLastFinalVector[1], fLastFinalVector[2]);
372 fAuxStepper->
Stepper( fLastInitialVector, fLastDyDx, 0.5 * fLastStepLength,
373 fMidVector, fMidError );
375 midPoint =
G4ThreeVector( fMidVector[0], fMidVector[1], fMidVector[2]);
380 if (initialPoint != finalPoint)
383 distChord = distLine;
387 distChord = (midPoint-initialPoint).mag();
410 b_104 = 27757.0/70785.0 ,
411 b_105 = 7923501.0/26329600.0 ,
412 b_106 = -927.0/3760.0 ,
413 b_107 = -3314760575.0/23165835264.0 ,
414 b_108 = 2479.0/23040.0 ,
417 for(
G4int i=0; i<numberOfVariables; ++i)
423 for(
G4int i=0; i<numberOfVariables; ++i)
425 yTemp[i] = yIn[i] + Step*(b_101*dydx[i] + b_102*ak2[i] + b_103*ak3[i] +
426 b_104*ak4[i] + b_105*ak5[i] + b_106*ak6[i] +
427 b_107*ak7[i] + b_108*ak8[i] + b_109*ak9[i]);
438 G4double bf1, bf4, bf5, bf6, bf7, bf8, bf9, bf10;
443 for(
G4int i=0; i<numberOfVariables; ++i)
453 bf1 = (66480.0*tau_4-206243.0*tau_3+237786.0*tau_2-124793.0*tau+28800.0)
455 bf4 = -16.0*tau*(45312.0*tau_3 - 125933.0*tau_2 + 119706.0*tau -40973.0)
457 bf5 = -2187.0*tau*(19440.0*tau_3 - 45743.0*tau_2 + 34786.0*tau - 9293.0)
459 bf6 = tau*(12864.0*tau_3 - 30653.0*tau_2 + 23786.0*tau - 6533.0)
461 bf7 = -5764801.0*tau*(16464.0*tau_3 - 32797.0*tau_2 + 17574.0*tau - 1927.0)
463 bf8 = 37.0*tau*(336.0*tau_3 - 661.0*tau_2 + 342.0*tau -31.0)
465 bf9 = tau*(tau-1.0)*(16.0*tau_2 - 15.0*tau +3.0)
467 bf10 = 8.0*tau*(tau - 1.0)*(tau - 1.0)*(2.0*tau - 1.0) ;
469 for(
G4int i=0; i<numberOfVariables; ++i)
471 yOut[i] = yIn[i] + Step*tau*( bf1*dydx[i] + bf4*ak4[i] + bf5*ak5[i] +
472 bf6*ak6[i] + bf7*ak7[i] + bf8*ak8[i] +
473 bf9*ak9[i] + bf10*ak10_low[i] ) ;
498 b104 = 27757.0/70785.0 ,
499 b105 = 7923501.0/26329600.0 ,
500 b106 = -927.0/3760.0 ,
501 b107 = -3314760575.0/23165835264.0 ,
502 b108 = 2479.0/23040.0 ,
505 b111 = 5843.0/76800.0 ,
508 b114 = 464.0/2673.0 ,
509 b115 = 353997.0/1196800.0 ,
510 b116 = -15068.0/57105.0 ,
511 b117 = -282475249.0/3644974080.0 ,
512 b118 = 8678831.0/156245760.0 ,
513 b119 = 116113.0/11718432.0 ,
514 b1110 = -25.0/243.0 ,
516 b121 = 15088049.0/199065600.0 ,
520 b125 = 92222037.0/268083200.0 ,
521 b126 = -433420501.0/1528586640.0 ,
522 b127 = -11549242677007.0/83630285291520.0 ,
523 b128 = 2725085557.0/26167173120.0 ,
524 b129 = 235429367.0/16354483200.0 ,
525 b1210 = -90924917.0/1040739840.0 ,
526 b1211 = -271149.0/21414400.0 ;
532 for(
G4int i=0; i<numberOfVariables; ++i)
540 for(
G4int i=0; i<numberOfVariables; ++i)
542 yTemp[i] = yIn[i] + Step*(b101*dydx[i] + b102*ak2[i] + b103*ak3[i] +
543 b104*ak4[i] + b105*ak5[i] + b106*ak6[i] +
544 b107*ak7[i] + b108*ak8[i] + b109*ak9[i]);
548 for(
G4int i=0; i<numberOfVariables; ++i)
550 yTemp[i] = yIn[i] + Step*(b111*dydx[i] + b112*ak2[i] + b113*ak3[i] +
551 b114*ak4[i] + b115*ak5[i] + b116*ak6[i] +
552 b117*ak7[i] + b118*ak8[i] + b119*ak9[i] +
557 for(
G4int i=0; i<numberOfVariables; ++i)
559 yTemp[i] = yIn[i] + Step*(b121*dydx[i] + b122*ak2[i] + b123*ak3[i] +
560 b124*ak4[i] + b125*ak5[i] + b126*ak6[i] +
561 b127*ak7[i] + b128*ak8[i] + b129*ak9[i] +
562 b1210*ak10[i] + b1211*ak11[i]);
583 bi[1][1] = -18487.0/2880.0 ,
584 bi[1][2] = 139189.0/7200.0 ,
585 bi[1][3] = -53923.0/1800.0 ,
586 bi[1][4] = 13811.0/600,
587 bi[1][5] = -2071.0/300,
610 bi[4][1] = -30208.0/14157.0 ,
611 bi[4][2] = 1147904.0/70785.0 ,
612 bi[4][3] = -241664.0/5445.0 ,
613 bi[4][4] = 241664.0/4719.0 ,
614 bi[4][5] = -483328.0/23595.0 ,
619 bi[5][1] = -177147.0/32912.0 ,
620 bi[5][2] = 3365793.0/82280.0 ,
621 bi[5][3] = -2302911.0/20570.0 ,
622 bi[5][4] = 531441.0/4114.0 ,
623 bi[5][5] = -531441.0/10285.0 ,
628 bi[6][1] = 536.0/141.0 ,
629 bi[6][2] = -20368.0/705.0 ,
630 bi[6][3] = 55744.0/705.0 ,
631 bi[6][4] = -4288.0/47.0 ,
632 bi[6][5] = 8576.0/235,
637 bi[7][1] = -1977326743.0/723932352.0 ,
638 bi[7][2] = 37569208117.0/1809830880.0 ,
639 bi[7][3] = -1977326743.0/34804440.0 ,
640 bi[7][4] = 1977326743.0/30163848.0 ,
641 bi[7][5] = -1977326743.0/75409620.0 ,
646 bi[8][1] = 259.0/144.0 ,
647 bi[8][2] = -4921.0/360.0 ,
648 bi[8][3] = 3367.0/90.0 ,
649 bi[8][4] = -259.0/6.0 ,
650 bi[8][5] = 259.0/15.0 ,
655 bi[9][1] = 62.0/105.0 ,
656 bi[9][2] = -2381.0/525.0 ,
657 bi[9][3] = 949.0/75.0 ,
658 bi[9][4] = -2636.0/175.0 ,
659 bi[9][5] = 1112.0/175.0 ,
664 bi[10][1] = 43.0/3.0 ,
665 bi[10][2] = -1534.0/15.0 ,
666 bi[10][3] = 3767.0/15.0 ,
667 bi[10][4] = -1264.0/5.0 ,
668 bi[10][5] = 448.0/5.0 ,
673 bi[11][1] = 63.0/5.0 ,
674 bi[11][2] = -1494.0/25.0 ,
675 bi[11][3] = 2907.0/25.0 ,
676 bi[11][4] = -2592.0/25.0 ,
677 bi[11][5] = 864.0/25.0 ,
682 bi[12][1] = -576.0/35.0 ,
683 bi[12][2] = 19584.0/175.0 ,
684 bi[12][3] = -6336.0/25.0 ,
685 bi[12][4] = 41472.0/175.0 ,
686 bi[12][5] = -13824.0/175.0 ;
689 for(
G4int i = 0; i< numberOfVariables; ++i)
698 for(
auto i=1; i<=12; ++i)
702 for(
auto j=0; j<=5; ++j)
704 b[i] += bi[i][j]*tau;
712 for(
G4int i=0; i<numberOfVariables; ++i)
714 yOut[i] = yIn[i] + Step*tau0*(b[1]*dydx[i] + b[2]*ak2[i] + b[3]*ak3[i] +
715 b[4]*ak4[i] + b[5]*ak5[i] + b[6]*ak6[i] +
716 b[7]*ak7[i] + b[8]*ak8[i] + b[9]*ak9[i] +
717 b[10]*ak10[i] + b[11]*ak11[i] + b[12]*ak12[i]);
CLHEP::Hep3Vector G4ThreeVector
void SetupInterpolate_low(const G4double yInput[], const G4double dydx[], const G4double Step)
G4DormandPrinceRK56(G4EquationOfMotion *EqRhs, G4int numberOfVariables=6, G4bool primary=true)
void Interpolate_low(const G4double yInput[], const G4double dydx[], const G4double Step, G4double yOut[], G4double tau)
void Stepper(const G4double y[], const G4double dydx[], G4double h, G4double yout[], G4double yerr[])
void Interpolate_high(const G4double yInput[], const G4double dydx[], const G4double Step, G4double yOut[], G4double tau)
G4double DistChord() const
void SetupInterpolate_high(const G4double yInput[], const G4double dydx[], const G4double Step)
static G4double Distline(const G4ThreeVector &OtherPnt, const G4ThreeVector &LinePntA, const G4ThreeVector &LinePntB)
G4int GetNumberOfVariables() const
void RightHandSide(const G4double y[], G4double dydx[]) const