Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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ptwX.h File Reference
#include <stdio.h>
#include <stdint.h>
#include <nf_utilities.h>

Go to the source code of this file.

Classes

struct  ptwXPoints_s
 

Macros

#define ptwX_minimumSize   10
 

Typedefs

typedef struct ptwXPoints_s ptwXPoints
 

Enumerations

enum  ptwX_sort_order { ptwX_sort_order_descending , ptwX_sort_order_ascending }
 

Functions

ptwXPointsptwX_new (int64_t size, nfu_status *status)
 
nfu_status ptwX_setup (ptwXPoints *ptwX, int64_t size)
 
ptwXPointsptwX_create (int64_t size, int64_t length, double const *xs, nfu_status *status)
 
ptwXPointsptwX_createLine (int64_t size, int64_t length, double slope, double offset, nfu_status *status)
 
nfu_status ptwX_copy (ptwXPoints *dest, ptwXPoints *src)
 
ptwXPointsptwX_clone (ptwXPoints *ptwX, nfu_status *status)
 
ptwXPointsptwX_slice (ptwXPoints *ptwX, int64_t index1, int64_t index2, nfu_status *status)
 
nfu_status ptwX_reallocatePoints (ptwXPoints *ptwX, int64_t size, int forceSmallerResize)
 
nfu_status ptwX_clear (ptwXPoints *ptwX)
 
nfu_status ptwX_release (ptwXPoints *ptwX)
 
ptwXPointsptwX_free (ptwXPoints *ptwX)
 
int64_t ptwX_length (ptwXPoints *ptwX)
 
nfu_status ptwX_setData (ptwXPoints *ptwX, int64_t length, double const *xs)
 
nfu_status ptwX_deletePoints (ptwXPoints *ptwX, int64_t i1, int64_t i2)
 
double * ptwX_getPointAtIndex (ptwXPoints *ptwX, int64_t index)
 
double ptwX_getPointAtIndex_Unsafely (ptwXPoints *ptwX, int64_t index)
 
nfu_status ptwX_setPointAtIndex (ptwXPoints *ptwX, int64_t index, double x)
 
nfu_status ptwX_insertPointsAtIndex (ptwXPoints *ptwX, int64_t index, int64_t n1, double const *xs)
 
int ptwX_ascendingOrder (ptwXPoints *ptwX)
 
ptwXPointsptwX_fromString (char const *str, char **endCharacter, nfu_status *status)
 
nfu_status ptwX_countOccurrences (ptwXPoints *ptwX, double value, int *count)
 
nfu_status ptwX_reverse (ptwXPoints *ptwX)
 
nfu_status ptwX_sort (ptwXPoints *ptwX, enum ptwX_sort_order order)
 
nfu_status ptwX_closesDifference (ptwXPoints *ptwX, double value, int64_t *index, double *difference)
 
nfu_status ptwX_closesDifferenceInRange (ptwXPoints *ptwX, int64_t i1, int64_t i2, double value, int64_t *index, double *difference)
 
ptwXPointsptwX_unique (ptwXPoints *ptwX, int order, nfu_status *status)
 
nfu_status ptwX_abs (ptwXPoints *ptwX)
 
nfu_status ptwX_neg (ptwXPoints *ptwX)
 
nfu_status ptwX_add_double (ptwXPoints *ptwX, double value)
 
nfu_status ptwX_mul_double (ptwXPoints *ptwX, double value)
 
nfu_status ptwX_slopeOffset (ptwXPoints *ptwX, double slope, double offset)
 
nfu_status ptwX_add_ptwX (ptwXPoints *ptwX1, ptwXPoints *ptwX2)
 
nfu_status ptwX_sub_ptwX (ptwXPoints *ptwX1, ptwXPoints *ptwX2)
 
nfu_status ptwX_xMinMax (ptwXPoints *ptwX, double *xMin, double *xMax)
 
nfu_status ptwX_compare (ptwXPoints *ptwX1, ptwXPoints *ptwX2, int *comparison)
 
int ptwX_close (ptwXPoints *ptwX1, ptwXPoints *ptwX2, int epsilonFactor, double epsilon, nfu_status *status)
 
void ptwX_simpleWrite (ptwXPoints const *ptwX, FILE *f, char const *format)
 
void ptwX_simplePrint (ptwXPoints const *ptwX, char const *format)
 

Macro Definition Documentation

◆ ptwX_minimumSize

#define ptwX_minimumSize   10

Definition at line 19 of file ptwX.h.

Typedef Documentation

◆ ptwXPoints

typedef struct ptwXPoints_s ptwXPoints

Enumeration Type Documentation

◆ ptwX_sort_order

Enumerator
ptwX_sort_order_descending 
ptwX_sort_order_ascending 

Definition at line 21 of file ptwX.h.

@ ptwX_sort_order_descending
Definition: ptwX.h:21
@ ptwX_sort_order_ascending
Definition: ptwX.h:21

Function Documentation

◆ ptwX_abs()

nfu_status ptwX_abs ( ptwXPoints ptwX)

Definition at line 434 of file ptwX_core.cc.

434 {
435
436 int64_t i1;
437 double *p1;
438
439 if( ptwX->status != nfu_Okay ) return( ptwX->status );
440 for( i1 = 0, p1 = ptwX->points; i1 < ptwX->length; i1++, p1++ ) *p1 = std::fabs( *p1 );
441 return( nfu_Okay );
442}
@ nfu_Okay
Definition: nf_utilities.h:25
nfu_status status
Definition: ptwX.h:25
double * points
Definition: ptwX.h:29

◆ ptwX_add_double()

nfu_status ptwX_add_double ( ptwXPoints ptwX,
double  value 
)

Definition at line 453 of file ptwX_core.cc.

453 {
454
455 return( ptwX_slopeOffset( ptwX, 1, value ) );
456}
nfu_status ptwX_slopeOffset(ptwXPoints *ptwX, double slope, double offset)
Definition: ptwX_core.cc:467

◆ ptwX_add_ptwX()

nfu_status ptwX_add_ptwX ( ptwXPoints ptwX1,
ptwXPoints ptwX2 
)

Definition at line 479 of file ptwX_core.cc.

479 {
480
481 int64_t i1;
482 double *p1 = ptwX1->points, *p2 = ptwX2->points;
483
484 if( ptwX1->status != nfu_Okay ) return( ptwX1->status );
485 if( ptwX2->status != nfu_Okay ) return( ptwX2->status );
486 if( ptwX1->length != ptwX2->length ) return( nfu_domainsNotMutual );
487
488 for( i1 = 0; i1 < ptwX1->length; i1++, p1++, p2++ ) *p1 += *p2;
489 return( nfu_Okay );
490}
@ nfu_domainsNotMutual
Definition: nf_utilities.h:28
int64_t length
Definition: ptwX.h:26

Referenced by MCGIDI_reaction_recast().

◆ ptwX_ascendingOrder()

int ptwX_ascendingOrder ( ptwXPoints ptwX)

Definition at line 257 of file ptwX_core.cc.

257 {
258/*
259* Returns -1 list is descending, 1 if ascending and 0 otherwise (i.e., mixed).
260*/
261 int order = 1;
262 int64_t i;
263 double x1, x2;
264
265 if( ptwX->length < 2 ) return( 0 );
266
267 if( ( x1 = ptwX->points[0] ) < ( x2 = ptwX->points[1] ) ) { /* Check for ascending order. */
268 for( i = 2; i < ptwX->length; i++ ) {
269 x1 = x2;
270 x2 = ptwX->points[i];
271 if( x2 <= x1 ) return( 0 );
272 } }
273 else {
274 if( x1 == x2 ) return( 0 );
275 order = -1; /* Check for descending order. */
276 for( i = 2; i < ptwX->length; i++ ) {
277 x1 = x2;
278 x2 = ptwX->points[i];
279 if( x1 <= x2 ) return( 0 );
280 }
281 }
282 return( order );
283}

◆ ptwX_clear()

nfu_status ptwX_clear ( ptwXPoints ptwX)

Definition at line 139 of file ptwX_core.cc.

139 {
140
141 ptwX->length = 0;
142 return( ptwX->status );
143}

Referenced by ptwX_copy().

◆ ptwX_clone()

ptwXPoints * ptwX_clone ( ptwXPoints ptwX,
nfu_status status 
)

Definition at line 88 of file ptwX_core.cc.

88 {
89
90 return( ptwX_slice( ptwX, 0, ptwX->length, status ) );
91}
ptwXPoints * ptwX_slice(ptwXPoints *ptwX, int64_t index1, int64_t index2, nfu_status *status)
Definition: ptwX_core.cc:95

Referenced by GIDI_settings_processedFlux::GIDI_settings_processedFlux(), MCGIDI_target_heated_recast(), GIDI_settings_processedFlux::operator=(), and ptwX_unique().

◆ ptwX_close()

int ptwX_close ( ptwXPoints ptwX1,
ptwXPoints ptwX2,
int  epsilonFactor,
double  epsilon,
nfu_status status 
)

Definition at line 553 of file ptwX_core.cc.

553 {
554
555 int64_t i1, n1 = ptwX1->length;
556 double larger;
557 double *p1 = ptwX1->points, *p2 = ptwX2->points;
558
559 epsilon = std::fabs( epsilon ) + std::abs( epsilonFactor ) * DBL_EPSILON;
560
561 *status = ptwX1->status;
562 if( ptwX1->status != nfu_Okay ) return( -1 );
563 *status = ptwX2->status;
564 if( ptwX2->status != nfu_Okay ) return( -1 );
565 *status = nfu_domainsNotMutual;
566 if( n1 != ptwX2->length ) return( -1 );
567
568 *status = nfu_Okay;
569 for( i1 = 0; i1 < n1; i1++, p1++, p2++ ) {
570 larger = std::fabs( *p1 );
571 if( std::fabs( *p2 ) > larger ) larger = std::fabs( *p2 );
572 if( std::fabs( *p2 - *p1 ) > epsilon * larger ) return( (int) ( i1 + 1 ) );
573 }
574 return( 0 );
575}
double epsilon(double density, double temperature)
#define DBL_EPSILON
Definition: templates.hh:66

◆ ptwX_closesDifference()

nfu_status ptwX_closesDifference ( ptwXPoints ptwX,
double  value,
int64_t *  index,
double *  difference 
)

Definition at line 352 of file ptwX_core.cc.

352 {
353
354 return( ptwX_closesDifferenceInRange( ptwX, 0, ptwX->length, value, index, difference ) );
355}
nfu_status ptwX_closesDifferenceInRange(ptwXPoints *ptwX, int64_t i1, int64_t i2, double value, int64_t *index, double *difference)
Definition: ptwX_core.cc:359

◆ ptwX_closesDifferenceInRange()

nfu_status ptwX_closesDifferenceInRange ( ptwXPoints ptwX,
int64_t  i1,
int64_t  i2,
double  value,
int64_t *  index,
double *  difference 
)

Definition at line 359 of file ptwX_core.cc.

359 {
360/*
361* Finds the closes datum to value. If *difference is zero, datum is same as value.
362*/
363 double d1;
364
365 *index = -1;
366 *difference = -1;
367 if( ptwX->status != nfu_Okay ) return( ptwX->status );
368 if( i1 < 0 ) i1 = 0;
369 if( i2 > ptwX->length ) i2 = ptwX->length;
370 if( i1 >= i2 ) return( nfu_Okay );
371 *index = i1;
372 *difference = value - ptwX->points[i1];
373 for( i1++; i1 < i2; i1++ ) {
374 d1 = value - ptwX->points[i1];
375 if( std::fabs( *difference ) > std::fabs( d1 ) ) {
376 *index = i1;
377 *difference = d1;
378 }
379 }
380 return( nfu_Okay );
381}

Referenced by ptwX_closesDifference().

◆ ptwX_compare()

nfu_status ptwX_compare ( ptwXPoints ptwX1,
ptwXPoints ptwX2,
int *  comparison 
)

Definition at line 528 of file ptwX_core.cc.

528 {
529
530 int64_t i1, n1 = ptwX1->length, n2 = ptwX2->length, nn = n1;
531 double *p1 = ptwX1->points, *p2 = ptwX2->points;
532
533 *comparison = 0;
534 if( ptwX1->status != nfu_Okay ) return( ptwX1->status );
535 if( ptwX2->status != nfu_Okay ) return( ptwX2->status );
536 if( nn > n2 ) nn = n2;
537 for( i1 = 0; i1 < nn; i1++, p1++, p2++ ) {
538 if( *p1 == *p2 ) continue;
539 *comparison = 1;
540 if( *p1 < *p2 ) *comparison = -1;
541 return( nfu_Okay );
542 }
543 if( n1 < n2 ) {
544 *comparison = -1; }
545 else if( n1 > n2 ) {
546 *comparison = 1;
547 }
548 return( nfu_Okay );
549}

◆ ptwX_copy()

nfu_status ptwX_copy ( ptwXPoints dest,
ptwXPoints src 
)

Definition at line 78 of file ptwX_core.cc.

78 {
79
80 if( dest->status == nfu_Okay ) return( dest->status );
81 if( src->status == nfu_Okay ) return( src->status );
82 ptwX_clear( dest );
83 return( ptwX_setData( dest, src->length, src->points ) );
84}
nfu_status ptwX_setData(ptwXPoints *ptwX, int64_t length, double const *xs)
Definition: ptwX_core.cc:173
nfu_status ptwX_clear(ptwXPoints *ptwX)
Definition: ptwX_core.cc:139

◆ ptwX_countOccurrences()

nfu_status ptwX_countOccurrences ( ptwXPoints ptwX,
double  value,
int *  count 
)

Definition at line 301 of file ptwX_core.cc.

301 {
302
303 int64_t i1;
304
305 *count = 0;
306 for( i1 = 0; i1 < ptwX->length; i1++ ) {
307 if( ptwX->points[i1] == value ) (*count)++;
308 }
309 return( nfu_Okay );
310}

◆ ptwX_create()

ptwXPoints * ptwX_create ( int64_t  size,
int64_t  length,
double const *  xs,
nfu_status status 
)

Definition at line 50 of file ptwX_core.cc.

50 {
51
52 ptwXPoints *ptwX = ptwX_new( size, status );
53
54 if( ptwX != NULL ) {
55 if( ( *status = ptwX_setData( ptwX, length, xs ) ) != nfu_Okay ) ptwX = ptwX_free( ptwX );
56 }
57 return( ptwX );
58}
ptwXPoints * ptwX_new(int64_t size, nfu_status *status)
Definition: ptwX_core.cc:24
ptwXPoints * ptwX_free(ptwXPoints *ptwX)
Definition: ptwX_core.cc:158

Referenced by ptwX_fromString(), and GIDI_settings_particle::setGroup().

◆ ptwX_createLine()

ptwXPoints * ptwX_createLine ( int64_t  size,
int64_t  length,
double  slope,
double  offset,
nfu_status status 
)

Definition at line 62 of file ptwX_core.cc.

62 {
63
64 int64_t i1;
65 double *p1;
66 ptwXPoints *ptwX;
67
68 if( size < length ) size = length;
69 if( ( ptwX = ptwX_new( size, status ) ) != NULL ) {
70 for( i1 = 0, p1 = ptwX->points; i1 < length; i1++, p1++ ) *p1 = slope * i1 + offset;
71 ptwX->length = length;
72 }
73 return( ptwX );
74}

Referenced by MCGIDI_target_heated_recast(), ptwXY_groupOneFunction(), ptwXY_groupThreeFunctions(), and ptwXY_groupTwoFunctions().

◆ ptwX_deletePoints()

nfu_status ptwX_deletePoints ( ptwXPoints ptwX,
int64_t  i1,
int64_t  i2 
)

Definition at line 191 of file ptwX_core.cc.

191 {
192
193 int64_t n = ptwX->length - ( i2 - i1 );
194
195 if( ptwX->status != nfu_Okay ) return( ptwX->status );
196 if( ( i1 < 0 ) || ( i1 > i2 ) || ( i2 > ptwX->length ) ) return( nfu_badIndex );
197 if( i1 != i2 ) {
198 for( ; i2 < ptwX->length; i1++, i2++ ) ptwX->points[i1] = ptwX->points[i2];
199 ptwX->length = n;
200 }
201 return( ptwX->status );
202}
@ nfu_badIndex
Definition: nf_utilities.h:26

◆ ptwX_free()

◆ ptwX_fromString()

ptwXPoints * ptwX_fromString ( char const *  str,
char **  endCharacter,
nfu_status status 
)

Definition at line 287 of file ptwX_core.cc.

287 {
288
289 int64_t numberConverted;
290 double *doublePtr;
291 ptwXPoints *ptwX = NULL;
292
293 if( ( *status = nfu_stringToListOfDoubles( str, &numberConverted, &doublePtr, endCharacter ) ) != nfu_Okay ) return( NULL );
294 ptwX = ptwX_create( numberConverted, numberConverted, doublePtr, status );
295 nfu_free( doublePtr );
296 return( ptwX );
297}
nfu_status nfu_stringToListOfDoubles(char const *str, int64_t *numberConverted, double **doublePtr, char **endCharacter)
ptwXPoints * ptwX_create(int64_t size, int64_t length, double const *xs, nfu_status *status)
Definition: ptwX_core.cc:50

◆ ptwX_getPointAtIndex()

double * ptwX_getPointAtIndex ( ptwXPoints ptwX,
int64_t  index 
)

Definition at line 206 of file ptwX_core.cc.

206 {
207
208 if( ptwX->status != nfu_Okay ) return( NULL );
209 if( ( index < 0 ) || ( index >= ptwX->length ) ) return( NULL );
210 return( &(ptwX->points[index]) );
211}

Referenced by MCGIDI_reaction_getCrossSectionAtE(), MCGIDI_reaction_recast(), and MCGIDI_target_heated_getTotalCrossSectionAtE().

◆ ptwX_getPointAtIndex_Unsafely()

double ptwX_getPointAtIndex_Unsafely ( ptwXPoints ptwX,
int64_t  index 
)

Definition at line 215 of file ptwX_core.cc.

215 {
216
217 return( ptwX->points[index] );
218}

Referenced by MCGIDI_angular_parseFromTOM(), MCGIDI_fromTOM_pdfOfX(), and MCGIDI_target_heated_recast().

◆ ptwX_insertPointsAtIndex()

nfu_status ptwX_insertPointsAtIndex ( ptwXPoints ptwX,
int64_t  index,
int64_t  n1,
double const *  xs 
)

Definition at line 238 of file ptwX_core.cc.

238 {
239
240 nfu_status status;
241 int64_t i1, i2, n1p, size = n1 + ptwX->length;
242
243 if( ptwX->status != nfu_Okay ) return( ptwX->status );
244 if( n1 < 1 ) return( nfu_Okay );
245 if( ( index < 0 ) || ( index > ptwX->length ) ) return( nfu_badIndex );
246 if( size > ptwX->allocatedSize ) {
247 if( ( status = ptwX_reallocatePoints( ptwX, size, 0 ) ) != nfu_Okay ) return( status );
248 }
249 for( i1 = ptwX->length - 1, i2 = size - 1, n1p = ptwX->length - index + 1; n1p > 0; i1--, i2--, n1p-- ) ptwX->points[i2] = ptwX->points[i1];
250 for( i1 = 0, i2 = index; i1 < n1; i1++, i2++ ) ptwX->points[i2] = xs[i1];
251 ptwX->length += n1;
252 return( nfu_Okay );
253}
enum nfu_status_e nfu_status
nfu_status ptwX_reallocatePoints(ptwXPoints *ptwX, int64_t size, int forceSmallerResize)
Definition: ptwX_core.cc:116
int64_t allocatedSize
Definition: ptwX.h:27

◆ ptwX_length()

int64_t ptwX_length ( ptwXPoints ptwX)

◆ ptwX_mul_double()

nfu_status ptwX_mul_double ( ptwXPoints ptwX,
double  value 
)

Definition at line 460 of file ptwX_core.cc.

460 {
461
462 return( ptwX_slopeOffset( ptwX, value, 0 ) );
463}

◆ ptwX_neg()

nfu_status ptwX_neg ( ptwXPoints ptwX)

Definition at line 446 of file ptwX_core.cc.

446 {
447
448 return( ptwX_slopeOffset( ptwX, -1, 0 ) );
449}

◆ ptwX_new()

ptwXPoints * ptwX_new ( int64_t  size,
nfu_status status 
)

Definition at line 24 of file ptwX_core.cc.

24 {
25
26 ptwXPoints *ptwX = (ptwXPoints *) nfu_calloc( sizeof( ptwXPoints ), 1 );
27
28 *status = nfu_mallocError;
29 if( ptwX == NULL ) return( NULL );
30 ptwX_setup( ptwX, size );
31 if( ( *status = ptwX->status ) != nfu_Okay ) ptwX = (ptwXPoints *) nfu_free( ptwX );
32 return( ptwX );
33}
@ nfu_mallocError
Definition: nf_utilities.h:25
void * nfu_calloc(size_t size, size_t n)
nfu_status ptwX_setup(ptwXPoints *ptwX, int64_t size)
Definition: ptwX_core.cc:37

Referenced by ptwX_create(), ptwX_createLine(), ptwX_slice(), ptwX_unique(), ptwXY_getXArray(), ptwXY_groupOneFunction(), ptwXY_groupThreeFunctions(), ptwXY_groupTwoFunctions(), and ptwXY_runningIntegral().

◆ ptwX_reallocatePoints()

nfu_status ptwX_reallocatePoints ( ptwXPoints ptwX,
int64_t  size,
int  forceSmallerResize 
)

Definition at line 116 of file ptwX_core.cc.

116 {
117
118 if( size < ptwX_minimumSize ) size = ptwX_minimumSize; /* ptwX_minimumSize must be > 0 for other routines to work properly. */
119 if( size < ptwX->length ) size = ptwX->length;
120 if( size != ptwX->allocatedSize ) {
121 if( size > ptwX->allocatedSize ) { /* Increase size of allocated points. */
122 ptwX->points = (double *) nfu_realloc( (size_t) size * sizeof( double ), ptwX->points ); }
123 else if( ( ptwX->allocatedSize > 2 * size ) || forceSmallerResize ) { /* Decrease size, if at least 1/2 size reduction or if forced to. */
124 ptwX->points = (double *) nfu_realloc( (size_t) size * sizeof( double ), ptwX->points );
125 }
126 if( ptwX->points == NULL ) {
127 ptwX->mallocFailedSize = size;
128 size = 0;
129 ptwX->status = nfu_mallocError;
130 }
131 ptwX->allocatedSize = size;
132 }
133
134 return( ptwX->status );
135}
void * nfu_realloc(size_t size, void *old)
#define ptwX_minimumSize
Definition: ptwX.h:19
int64_t mallocFailedSize
Definition: ptwX.h:28

Referenced by ptwX_insertPointsAtIndex(), ptwX_setData(), ptwX_setPointAtIndex(), and ptwX_setup().

◆ ptwX_release()

nfu_status ptwX_release ( ptwXPoints ptwX)

Definition at line 147 of file ptwX_core.cc.

147 {
148
149 ptwX->length = 0;
150 ptwX->allocatedSize = 0;
151 ptwX->points = (double *) nfu_free( ptwX->points );
152
153 return( nfu_Okay );
154}

Referenced by ptwX_free().

◆ ptwX_reverse()

nfu_status ptwX_reverse ( ptwXPoints ptwX)

Definition at line 314 of file ptwX_core.cc.

314 {
315
316 int64_t i1, i2 = ptwX->length - 1, n1 = ptwX->length / 2;
317 double tmp;
318
319 for( i1 = 0; i1 < n1; i1++, i2-- ) {
320 tmp = ptwX->points[i1];
321 ptwX->points[i1] = ptwX->points[i2];
322 ptwX->points[i2] = tmp;
323 }
324 return( nfu_Okay );
325}

◆ ptwX_setData()

nfu_status ptwX_setData ( ptwXPoints ptwX,
int64_t  length,
double const *  xs 
)

Definition at line 173 of file ptwX_core.cc.

173 {
174
175 int64_t i;
176
177 if( ptwX->status != nfu_Okay ) return( ptwX->status );
178
179 if( length > ptwX->allocatedSize ) {
180 ptwX_reallocatePoints( ptwX, length, 0 );
181 if( ptwX->status != nfu_Okay ) return( ptwX->status );
182 }
183 for( i = 0; i < length; i++ ) ptwX->points[i] = xs[i];
184 ptwX->length = length;
185
186 return( ptwX->status );
187}

Referenced by ptwX_copy(), and ptwX_create().

◆ ptwX_setPointAtIndex()

nfu_status ptwX_setPointAtIndex ( ptwXPoints ptwX,
int64_t  index,
double  x 
)

Definition at line 222 of file ptwX_core.cc.

222 {
223
224 nfu_status status;
225
226 if( ptwX->status != nfu_Okay ) return( ptwX->status );
227 if( ( index < 0 ) || ( index > ptwX->length ) ) return( nfu_badIndex );
228 if( index == ptwX->allocatedSize ) {
229 if( ( status = ptwX_reallocatePoints( ptwX, ptwX->allocatedSize + 10, 0 ) ) != nfu_Okay ) return( status );
230 }
231 ptwX->points[index] = x;
232 if( index == ptwX->length ) ptwX->length++;
233 return( nfu_Okay );
234}

Referenced by MCGIDI_target_heated_recast(), and ptwXY_runningIntegral().

◆ ptwX_setup()

nfu_status ptwX_setup ( ptwXPoints ptwX,
int64_t  size 
)

Definition at line 37 of file ptwX_core.cc.

37 {
38
39 ptwX->status = nfu_Okay;
40 ptwX->length = 0;
41 ptwX->allocatedSize = 0;
42 ptwX->mallocFailedSize = 0;
43 ptwX->points = NULL;
44 ptwX_reallocatePoints( ptwX, size, 0 );
45 return( ptwX->status );
46}

Referenced by ptwX_new().

◆ ptwX_simplePrint()

void ptwX_simplePrint ( ptwXPoints const *  ptwX,
char const *  format 
)

Definition at line 29 of file ptwX_misc.cc.

29 {
30
31 ptwX_simpleWrite( ptwX, stdout, format );
32}
void ptwX_simpleWrite(ptwXPoints const *ptwX, FILE *f, char const *format)
Definition: ptwX_misc.cc:19

◆ ptwX_simpleWrite()

void ptwX_simpleWrite ( ptwXPoints const *  ptwX,
FILE *  f,
char const *  format 
)

Definition at line 19 of file ptwX_misc.cc.

19 {
20
21 int64_t i1;
22 double *p1 = ptwX->points;
23
24 for( i1 = 0; i1 < ptwX->length; ++i1, ++p1 ) fprintf( f, format, *p1 );
25}

Referenced by ptwX_simplePrint().

◆ ptwX_slice()

ptwXPoints * ptwX_slice ( ptwXPoints ptwX,
int64_t  index1,
int64_t  index2,
nfu_status status 
)

Definition at line 95 of file ptwX_core.cc.

95 {
96
97 int64_t i, j, length;
99
100 *status = nfu_badSelf;
101 if( ptwX->status != nfu_Okay ) return( NULL );
102 *status = nfu_badIndex;
103 if( index1 < 0 ) return( NULL );
104 if( index2 < index1 ) return( NULL );
105 if( index2 > ptwX->length ) return( NULL );
106 length = ( index2 - index1 );
107 if( ( n = ptwX_new( length, status ) ) == NULL ) return( n );
108 *status = n->status;
109 for( j = 0, i = index1; i < index2; i++, j++ ) n->points[j] = ptwX->points[i];
110 n->length = length;
111 return( n );
112}
@ nfu_badSelf
Definition: nf_utilities.h:27

Referenced by ptwX_clone().

◆ ptwX_slopeOffset()

nfu_status ptwX_slopeOffset ( ptwXPoints ptwX,
double  slope,
double  offset 
)

Definition at line 467 of file ptwX_core.cc.

467 {
468
469 int64_t i1;
470 double *p1;
471
472 if( ptwX->status != nfu_Okay ) return( ptwX->status );
473 for( i1 = 0, p1 = ptwX->points; i1 < ptwX->length; i1++, p1++ ) *p1 = slope * *p1 + offset;
474 return( nfu_Okay );
475}

Referenced by ptwX_add_double(), ptwX_mul_double(), and ptwX_neg().

◆ ptwX_sort()

nfu_status ptwX_sort ( ptwXPoints ptwX,
enum ptwX_sort_order  order 
)

Definition at line 329 of file ptwX_core.cc.

329 {
330
331 int (*cmp)( void const *, void const * ) = ptwX_sort_descending;
332
333 if( order == ptwX_sort_order_ascending ) cmp = ptwX_sort_ascending;
334 qsort( ptwX->points, (size_t) ptwX->length, sizeof( ptwX->points[0] ), cmp );
335 return( nfu_Okay );
336}

Referenced by ptwX_unique().

◆ ptwX_sub_ptwX()

nfu_status ptwX_sub_ptwX ( ptwXPoints ptwX1,
ptwXPoints ptwX2 
)

Definition at line 494 of file ptwX_core.cc.

494 {
495
496 int64_t i1;
497 double *p1 = ptwX1->points, *p2 = ptwX2->points;
498
499 if( ptwX1->status != nfu_Okay ) return( ptwX1->status );
500 if( ptwX2->status != nfu_Okay ) return( ptwX2->status );
501 if( ptwX1->length != ptwX2->length ) return( nfu_domainsNotMutual );
502
503 for( i1 = 0; i1 < ptwX1->length; i1++, p1++, p2++ ) *p1 -= *p2;
504 return( nfu_Okay );
505}

◆ ptwX_unique()

ptwXPoints * ptwX_unique ( ptwXPoints ptwX,
int  order,
nfu_status status 
)

Definition at line 385 of file ptwX_core.cc.

385 {
386/*
387* If order < 0 order is descending, if order > 0 order is ascending, otherwise, order is the same as ptwX.
388*/
389 int64_t i1, i2, n1 = 0;
390 double x1, *p2;
391 ptwXPoints *ptwX2 = NULL;
392
393 if( order == 0 ) {
394 if( ( ptwX2 = ptwX_new( ptwX->length, status ) ) == NULL ) return( NULL );
395 for( i1 = 0; i1 < ptwX->length; i1++ ) {
396 x1 = ptwX->points[i1];
397 for( i2 = 0, p2 = ptwX2->points; i2 < ptwX2->length; i2++, p2++ ) {
398 if( *p2 == x1 ) break;
399 }
400 if( i2 == ptwX2->length ) {
401 ptwX2->points[ptwX2->length] = x1;
402 ptwX2->length++;
403 }
404 } }
405 else {
406 if( ( ptwX2 = ptwX_clone( ptwX, status ) ) == NULL ) return( NULL );
407 if( ( *status = ptwX_sort( ptwX2, ptwX_sort_order_ascending ) ) != nfu_Okay ) goto err;
408
409 if( ptwX2->length > 1 ) {
410 x1 = ptwX2->points[n1];
411 n1++;
412 for( i1 = 1; i1 < ptwX2->length; i1++ ) {
413 if( x1 != ptwX2->points[i1] ) {
414 x1 = ptwX2->points[i1];
415 ptwX2->points[n1] = x1;
416 n1++;
417 }
418 }
419 ptwX2->length = n1;
420 if( order < 0 ) {
421 if( ( *status = ptwX_sort( ptwX2, ptwX_sort_order_descending ) ) != nfu_Okay ) goto err;
422 }
423 }
424 }
425 return( ptwX2 );
426
427err:
428 if( ptwX2 != NULL ) ptwX_free( ptwX2 );
429 return( NULL );
430}
ptwXPoints * ptwX_clone(ptwXPoints *ptwX, nfu_status *status)
Definition: ptwX_core.cc:88
nfu_status ptwX_sort(ptwXPoints *ptwX, enum ptwX_sort_order order)
Definition: ptwX_core.cc:329

◆ ptwX_xMinMax()

nfu_status ptwX_xMinMax ( ptwXPoints ptwX,
double *  xMin,
double *  xMax 
)

Definition at line 509 of file ptwX_core.cc.

509 {
510
511 int64_t i1, n1 = ptwX->length;
512 *xMin = *xMax = 0;
513 double *p1 = ptwX->points;
514
515 if( ptwX->status != nfu_Okay ) return( ptwX->status );
516 if( n1 > 0 ) {
517 *xMin = *xMax = *(p1++);
518 for( i1 = 1; i1 < n1; ++i1, ++p1 ) {
519 if( *p1 < *xMin ) *xMin = *p1;
520 if( *p1 > *xMax ) *xMax = *p1;
521 }
522 }
523 return( nfu_Okay );
524}