distance_scdistance_scDistanceScDistanceScdistance_sc (Operator)
Name
distance_scdistance_scDistanceScDistanceScdistance_sc — Berechnen des Abstandes zwischen einer Strecke und einer Kontur.
Signatur
Herror distance_sc(const Hobject Contour, double Row1, double Column1, double Row2, double Column2, double* DistanceMin, double* DistanceMax)
Herror T_distance_sc(const Hobject Contour, const Htuple Row1, const Htuple Column1, const Htuple Row2, const Htuple Column2, Htuple* DistanceMin, Htuple* DistanceMax)
void DistanceSc(const HObject& Contour, const HTuple& Row1, const HTuple& Column1, const HTuple& Row2, const HTuple& Column2, HTuple* DistanceMin, HTuple* DistanceMax)
void HXLDCont::DistanceSc(const HTuple& Row1, const HTuple& Column1, const HTuple& Row2, const HTuple& Column2, HTuple* DistanceMin, HTuple* DistanceMax) const
void HXLDCont::DistanceSc(double Row1, double Column1, double Row2, double Column2, double* DistanceMin, double* DistanceMax) const
static void HOperatorSet.DistanceSc(HObject contour, HTuple row1, HTuple column1, HTuple row2, HTuple column2, out HTuple distanceMin, out HTuple distanceMax)
void HXLDCont.DistanceSc(HTuple row1, HTuple column1, HTuple row2, HTuple column2, out HTuple distanceMin, out HTuple distanceMax)
void HXLDCont.DistanceSc(double row1, double column1, double row2, double column2, out double distanceMin, out double distanceMax)
def distance_sc(contour: HObject, row_1: MaybeSequence[Union[float, int]], column_1: MaybeSequence[Union[float, int]], row_2: MaybeSequence[Union[float, int]], column_2: MaybeSequence[Union[float, int]]) -> Tuple[Sequence[float], Sequence[float]]
def distance_sc_s(contour: HObject, row_1: MaybeSequence[Union[float, int]], column_1: MaybeSequence[Union[float, int]], row_2: MaybeSequence[Union[float, int]], column_2: MaybeSequence[Union[float, int]]) -> Tuple[float, float]
Beschreibung
distance_scdistance_scDistanceScDistanceScDistanceScdistance_sc berechnet den Abstand zwischen einer Strecke
und den Liniensegmenten einer Kontur.
Als Eingabe werden der Anfangs- und Endpunkt einer Strecke
(Row1Row1Row1Row1row1row_1,Column1Column1Column1Column1column1column_1,Row2Row2Row2Row2row2row_2,Column2Column2Column2Column2column2column_2)
und eine Kontur (ContourContourContourContourcontourcontour) erwartet. Das Ergebnis wird
in den Parametern
DistanceMinDistanceMinDistanceMinDistanceMindistanceMindistance_min und DistanceMaxDistanceMaxDistanceMaxDistanceMaxdistanceMaxdistance_max übergeben.
Ausführungsinformationen
- Multithreading-Typ: reentrant (läuft parallel zu nicht-exklusiven Operatoren).
- Multithreading-Bereich: global (kann von jedem Thread aufgerufen werden).
- Wird ohne Parallelisierung verarbeitet.
Parameter
ContourContourContourContourcontourcontour (input_object) xld_cont → objectHXLDContHObjectHXLDContHobject
Eingabekontur.
Row1Row1Row1Row1row1row_1 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des ersten Punktes der Strecke.
Column1Column1Column1Column1column1column_1 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des ersten Punktes der Strecke.
Row2Row2Row2Row2row2row_2 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des zweiten Punktes der Strecke.
Column2Column2Column2Column2column2column_2 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des zweiten Punktes der Strecke.
DistanceMinDistanceMinDistanceMinDistanceMindistanceMindistance_min (output_control) real(-array) → HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Minimaler Abstand zwischen der Strecke und der Kontur.
DistanceMaxDistanceMaxDistanceMaxDistanceMaxdistanceMaxdistance_max (output_control) real(-array) → HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Maximaler Abstand zwischen der Strecke und der Kontur.
Ergebnis
distance_scdistance_scDistanceScDistanceScDistanceScdistance_sc liefert den Wert TRUE.
Alternativen
distance_lcdistance_lcDistanceLcDistanceLcDistanceLcdistance_lc,
distance_pcdistance_pcDistancePcDistancePcDistancePcdistance_pc,
distance_ccdistance_ccDistanceCcDistanceCcDistanceCcdistance_cc,
distance_cc_mindistance_cc_minDistanceCcMinDistanceCcMinDistanceCcMindistance_cc_min
Siehe auch
distance_srdistance_srDistanceSrDistanceSrDistanceSrdistance_sr,
distance_lrdistance_lrDistanceLrDistanceLrDistanceLrdistance_lr,
distance_prdistance_prDistancePrDistancePrDistancePrdistance_pr,
select_xld_pointselect_xld_pointSelectXldPointSelectXldPointSelectXldPointselect_xld_point,
test_xld_pointtest_xld_pointTestXldPointTestXldPointTestXldPointtest_xld_point
Modul
Foundation