11 #if defined __cplusplus
16 static double ptwXY_mod2(
double v,
double m,
int pythonMod );
19 int level,
int isNAN1,
int isNAN2 );
33 for( i = 0, p = ptwXY->
points; i < nonOverflowLength; i++, p++ ) p->
y = slope * p->
y + offset;
34 for( o = overflowHeader->
next; o != overflowHeader; o = o->
next ) o->
point.
y = slope * o->
point.
y + offset;
68 for( i = 0, p = ptwXY->
points; i < nonOverflowLength; i++, p++ ) p->
y = value / p->
y;
69 for( o = overflowHeader->
next; o != overflowHeader; o = o->
next ) o->
point.
y = value / o->
point.
y;
85 for( i = 0, p = ptwXY->
points; i < nonOverflowLength; i++, p++ ) p->
y =
ptwXY_mod2( p->
y, m, pythonMod );
92 static double ptwXY_mod2(
double v,
double m,
int pythonMod ) {
94 double r = std::fmod( std::fabs( v ), std::fabs( m ) );
97 if( ( v * m ) < 0. ) r = std::fabs( m ) - std::fabs( r );
98 if( m < 0. ) r *= -1.; }
100 if( v < 0. ) r *= -1.;
124 if( ( n =
ptwXY_union( ptwXY1, ptwXY2, status, unionOptions ) ) != NULL ) {
125 for( i = 0, p = n->
points; i < n->length; i++, p++ ) {
127 p->
y = v1 * p->
y + v2 * y + v1v2 * y * p->
y;
142 if( ptwXY1->
length == 0 ) {
144 else if( ptwXY2->
length == 0 ) {
158 if( ptwXY1->
length == 0 ) {
161 else if( ptwXY2->
length == 0 ) {
175 if( ptwXY1->
length == 0 ) {
177 else if( ptwXY2->
length == 0 ) {
192 double x1,
y1,
x2,
y2, u1, u2, v1, v2, xz1 = 0, xz2 = 0,
x;
197 if( ( n =
ptwXY_mul_ptwXY( ptwXY1, ptwXY2, status ) ) == NULL )
return( n );
203 for( i = length - 1; i >= 0; i-- ) {
211 xz1 = ( u1 * x2 - u2 *
x1 ) / ( u1 - u2 );
216 xz2 = ( v1 * x2 - v2 *
x1 ) / ( v1 - v2 );
221 x = 0.5 * ( xz1 + xz2 );
233 for( i = n->
length - 2; i >= 0; i-- ) {
254 double u1, u2, v1, v2,
x,
y, yp, dx, a1, a2;
263 if( ( u1 == u2 ) || ( v1 == v2 ) )
return(
nfu_Okay );
265 if( y1 == 0 ) a1 = 0.;
267 if( y2 == 0 ) a2 = 0.;
268 if( ( a1 == 0. ) || ( a2 == 0. ) ) {
269 x = 0.5 * ( x1 +
x2 ); }
271 if( ( a1 * a2 < 0. ) )
return(
nfu_Okay );
272 a1 = std::sqrt( std::fabs( a1 ) );
273 a2 = std::sqrt( std::fabs( a2 ) );
274 x = ( a2 * x1 + a1 *
x2 ) / ( a2 + a1 );
277 yp = ( u1 * v1 * ( x2 -
x ) + u2 * v2 * ( x - x1 ) ) / dx;
278 y = ( u1 * ( x2 -
x ) + u2 * ( x - x1 ) ) * ( v1 * ( x2 - x ) + v2 * ( x -
x1 ) ) / ( dx * dx );
279 if( std::fabs( y - yp ) < std::fabs( y * n->
accuracy ) )
return(
nfu_Okay );
291 int64_t i, j, k, zeros = 0, length, iYs;
292 double x1,
x2,
y1,
y2, u1, u2, v1, v2,
y, xz, nan =
nfu_getNAN( ), s1, s2;
306 for( i = 0, p = n->
points; i < n->length; i++, p++ ) {
326 if( i < ( n->
length - 1 ) ) {
339 p->
y = ( y1 +
y2 ) / iYs;
356 for( i = length - 1; i >= 0; i-- ) {
363 xz = ( u1 * x2 - u2 *
x1 ) / ( u1 - u2 );
372 xz = ( v1 * x2 - v2 *
x1 ) / ( v1 - v2 );
382 for( i = n->
length - 2; i >= 0; i-- ) {
386 if( !isNAN1 || !isNAN2 ) {
413 for( k = i + 1, j = i; k < n->
length; k++ ) {
433 int level,
int isNAN1,
int isNAN2 ) {
436 double u1, u2, v1, v2, v,
x,
y, yp, dx, a1, a2;
446 x = 0.5 * ( x1 +
x2 );
451 x = 0.5 * ( x1 +
x2 );
456 if( ( u1 == u2 ) || ( v1 == v2 ) )
return(
nfu_Okay );
457 if( ( y1 == 0. ) || ( y2 == 0. ) ) {
458 x = 0.5 * ( x1 +
x2 ); }
460 if( ( u1 * u2 < 0. ) )
return(
nfu_Okay );
461 a1 = std::sqrt( std::fabs( u1 ) );
462 a2 = std::sqrt( std::fabs( u2 ) );
463 x = ( a2 * x1 + a1 *
x2 ) / ( a2 + a1 );
466 v = v1 * ( x2 -
x ) + v2 * ( x - x1 );
467 if( ( v1 == 0. ) || ( v2 == 0. ) || ( v == 0. ) )
return(
nfu_Okay );
468 yp = ( u1 / v1 * ( x2 -
x ) + u2 / v2 * ( x - x1 ) ) / dx;
469 y = ( u1 * ( x2 -
x ) + u2 * ( x - x1 ) ) / v;
470 if( std::fabs( y - yp ) < std::fabs( y * n->
accuracy ) )
return(
nfu_Okay );
491 for( i = 0, p = n->
points; i < n->length; i++, p++ ) {
494 if( ( safeDivide ) && ( p->
y == 0 ) ) {
520 #if defined __cplusplus
nfu_status ptwXY_getSlopeAtX(ptwXYPoints *ptwXY, double x, const char side, double *slope)
nfu_status ptwXY_sub_fromDouble(ptwXYPoints *ptwXY, double value)
nfu_status ptwXY_slopeOffset(ptwXYPoints *ptwXY, double slope, double offset)
Float_t y1[n_points_granero]
static nfu_status ptwXY_mul2_s_ptwXY(ptwXYPoints *n, ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, double x1, double y1, double x2, double y2, int level)
ptwXYPoints * ptwXY_clone(ptwXYPoints *ptwXY, nfu_status *status)
int64_t ptwXY_getNonOverflowLength(ptwXYPoints const *ptwXY)
Float_t x1[n_points_granero]
ptwXYPoints * ptwXY_sub_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status)
static ptwXYPoints * ptwXY_div_ptwXY_forFlats(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status, int safeDivide)
nfu_status ptwXY_neg(ptwXYPoints *ptwXY)
ptwXYPoints * ptwXY_mul2_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status)
struct ptwXYOverflowPoint_s * next
Float_t y2[n_points_geant4]
static constexpr double m
ptwXYPoints * ptwXY_div_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status, int safeDivide)
nfu_status ptwXY_add_double(ptwXYPoints *ptwXY, double value)
ptwXYPoints * ptwXY_union(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status, int unionOptions)
const XML_Char int const XML_Char * value
nfu_status ptwXY_mul_double(ptwXYPoints *ptwXY, double value)
enum nfu_status_e nfu_status
nfu_status ptwXY_areDomainsMutual(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2)
nfu_status ptwXY_getValueAtX(ptwXYPoints *ptwXY, double x, double *y)
static double ptwXY_mod2(double v, double m, int pythonMod)
ptwXY_interpolation interpolation
nfu_status ptwXY_mod(ptwXYPoints *ptwXY, double m, int pythonMod)
void ptwXY_update_biSectionMax(ptwXYPoints *ptwXY1, double oldLength)
nfu_status ptwXY_div_doubleFrom(ptwXYPoints *ptwXY, double value)
ptwXYPoints * ptwXY_free(ptwXYPoints *ptwXY)
static nfu_status ptwXY_div_s_ptwXY(ptwXYPoints *n, ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, double x1, double y1, double x2, double y2, int level, int isNAN1, int isNAN2)
nfu_status ptwXY_simpleCoalescePoints(ptwXYPoints *ptwXY)
ptwXYPoints * ptwXY_add_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status)
ptwXYPoints * ptwXY_binary_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, double v1, double v2, double v1v2, nfu_status *status)
Float_t x2[n_points_geant4]
#define ClosestAllowXFactor
nfu_status ptwXY_sub_doubleFrom(ptwXYPoints *ptwXY, double value)
nfu_status ptwXY_setValueAtX(ptwXYPoints *ptwXY, double x, double y)
static nfu_status ptwXY_getValueAtX_ignore_XOutsideDomainError(ptwXYPoints *ptwXY1, double x, double *y)
ptwXYPoints * ptwXY_mul_ptwXY(ptwXYPoints *ptwXY1, ptwXYPoints *ptwXY2, nfu_status *status)
nfu_status ptwXY_div_fromDouble(ptwXYPoints *ptwXY, double value)
#define ptwXY_union_mergeClosePoints
ptwXYOverflowPoint overflowHeader