distance_ssdistance_ssDistanceSsDistanceSsdistance_ss (Operator)
Name
distance_ssdistance_ssDistanceSsDistanceSsdistance_ss — Berechnen der Abstände zwischen zwei Strecken.
Signatur
Herror distance_ss(double RowA1, double ColumnA1, double RowA2, double ColumnA2, double RowB1, double ColumnB1, double RowB2, double ColumnB2, double* DistanceMin, double* DistanceMax)
Herror T_distance_ss(const Htuple RowA1, const Htuple ColumnA1, const Htuple RowA2, const Htuple ColumnA2, const Htuple RowB1, const Htuple ColumnB1, const Htuple RowB2, const Htuple ColumnB2, Htuple* DistanceMin, Htuple* DistanceMax)
void DistanceSs(const HTuple& RowA1, const HTuple& ColumnA1, const HTuple& RowA2, const HTuple& ColumnA2, const HTuple& RowB1, const HTuple& ColumnB1, const HTuple& RowB2, const HTuple& ColumnB2, HTuple* DistanceMin, HTuple* DistanceMax)
static void HMisc::DistanceSs(const HTuple& RowA1, const HTuple& ColumnA1, const HTuple& RowA2, const HTuple& ColumnA2, const HTuple& RowB1, const HTuple& ColumnB1, const HTuple& RowB2, const HTuple& ColumnB2, HTuple* DistanceMin, HTuple* DistanceMax)
static void HMisc::DistanceSs(double RowA1, double ColumnA1, double RowA2, double ColumnA2, double RowB1, double ColumnB1, double RowB2, double ColumnB2, double* DistanceMin, double* DistanceMax)
static void HOperatorSet.DistanceSs(HTuple rowA1, HTuple columnA1, HTuple rowA2, HTuple columnA2, HTuple rowB1, HTuple columnB1, HTuple rowB2, HTuple columnB2, out HTuple distanceMin, out HTuple distanceMax)
static void HMisc.DistanceSs(HTuple rowA1, HTuple columnA1, HTuple rowA2, HTuple columnA2, HTuple rowB1, HTuple columnB1, HTuple rowB2, HTuple columnB2, out HTuple distanceMin, out HTuple distanceMax)
static void HMisc.DistanceSs(double rowA1, double columnA1, double rowA2, double columnA2, double rowB1, double columnB1, double rowB2, double columnB2, out double distanceMin, out double distanceMax)
def distance_ss(row_a1: MaybeSequence[Union[float, int]], column_a1: MaybeSequence[Union[float, int]], row_a2: MaybeSequence[Union[float, int]], column_a2: MaybeSequence[Union[float, int]], row_b1: MaybeSequence[Union[float, int]], column_b1: MaybeSequence[Union[float, int]], row_b2: MaybeSequence[Union[float, int]], column_b2: MaybeSequence[Union[float, int]]) -> Tuple[Sequence[float], Sequence[float]]
def distance_ss_s(row_a1: MaybeSequence[Union[float, int]], column_a1: MaybeSequence[Union[float, int]], row_a2: MaybeSequence[Union[float, int]], column_a2: MaybeSequence[Union[float, int]], row_b1: MaybeSequence[Union[float, int]], column_b1: MaybeSequence[Union[float, int]], row_b2: MaybeSequence[Union[float, int]], column_b2: MaybeSequence[Union[float, int]]) -> Tuple[float, float]
Beschreibung
distance_ssdistance_ssDistanceSsDistanceSsdistance_ss berechnet den minimalen und den maximalen
Abstand zwischen zwei Strecken.
Als Eingabe werden die Koordinaten des Start- und Endpunktes
der ersten Strecke (RowA1RowA1RowA1rowA1row_a1,ColumnA1ColumnA1ColumnA1columnA1column_a1,
RowA2RowA2RowA2rowA2row_a2,ColumnA2ColumnA2ColumnA2columnA2column_a2) und der zweiten Strecke
(RowB1RowB1RowB1rowB1row_b1,ColumnB1ColumnB1ColumnB1columnB1column_b1,RowB2RowB2RowB2rowB2row_b2,ColumnB2ColumnB2ColumnB2columnB2column_b2)
erwartet. Das Ergebnis, d.h. minimaler und maximaler Abstand,
wird dann im Parameter DistanceMinDistanceMinDistanceMindistanceMindistance_min und DistanceMaxDistanceMaxDistanceMaxdistanceMaxdistance_max
übergeben. Falls sich die beiden Strecken
schneiden, dann ist DistanceMinDistanceMinDistanceMindistanceMindistance_min gleich Null.
Parameter-Broadcasting
Dieser Operator unterstützt Parameter-Broadcasting.
Das bedeutet, dass für jeden Parameter ein Tupel der Länge
1 oder 'N'"N""N""N""N" übergeben werden kann.
Tupel der Länge 1 werden wiederholt verwendet,
so dass immer 'N'"N""N""N""N" Distanzen berechnet und zurückgegeben werden.
Ausführungsinformationen
- Multithreading-Typ: reentrant (läuft parallel zu nicht-exklusiven Operatoren).
- Multithreading-Bereich: global (kann von jedem Thread aufgerufen werden).
- Automatisch parallelisiert auf interner Datenebene.
Parameter
RowA1RowA1RowA1rowA1row_a1 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des ersten Punktes der ersten Strecke.
ColumnA1ColumnA1ColumnA1columnA1column_a1 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des ersten Punktes der ersten Strecke.
RowA2RowA2RowA2rowA2row_a2 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des zweiten Punktes der ersten Strecke.
ColumnA2ColumnA2ColumnA2columnA2column_a2 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des zweiten Punktes der ersten Strecke.
RowB1RowB1RowB1rowB1row_b1 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des ersten Punktes der zweiten Strecke.
ColumnB1ColumnB1ColumnB1columnB1column_b1 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des ersten Punktes der zweiten Strecke.
RowB2RowB2RowB2rowB2row_b2 (input_control) point.y(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Zeilenkoordinate des zweiten Punktes der zweiten Strecke.
ColumnB2ColumnB2ColumnB2columnB2column_b2 (input_control) point.x(-array) → HTupleMaybeSequence[Union[float, int]]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Spaltenkoordinate des zweiten Punktes der zweiten Strecke.
DistanceMinDistanceMinDistanceMindistanceMindistance_min (output_control) real(-array) → HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Minimaler Abstand zwischen den Strecken.
DistanceMaxDistanceMaxDistanceMaxdistanceMaxdistance_max (output_control) real(-array) → HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Maximaler Abstand zwischen den Strecken.
Beispiel (HDevelop)
dev_open_window (0, 0, 512, 512, 'black', WindowHandle)
Row1 := 300
Column1 := 200
Row2 := 100
Column2 := 300
gen_contour_polygon_xld (Line1, [Row1,Row2], [Column1,Column2])
Column := 100
Offset := 30
for Row := 40 to 100 by 20
gen_contour_polygon_xld (Line2, [Row, Row+Offset], \
[Column, Column+Offset])
distance_ss (Row, Column, Row+Offset, Column+Offset, Row1, Column1, \
Row2, Column2, DistanceMin, DistanceMax)
Offset := Offset+50
endfor
Beispiel (C)
create_tuple(&RowA1, 1);
set_i(RowA1, 8, 0);
create_tuple(&ColumnA1, 1);
set_i(ColumnA1, 7, 0);
create_tuple(&RowA2, 1);
set_i(RowA2, 15, 0);
create_tuple(&ColumnA2, 1);
set_i(ColumnA2, 11, 0);
create_tuple(&RowB1, 1);
set_i(RowB1, 2, 0);
create_tuple(&ColumnB1, 1);
set_i(ColumnB1, 4, 0);
create_tuple(&RowB2, 1);
set_i(RowB2, 6, 0);
create_tuple(&ColumnB2, 1);
set_i(ColumnB2, 10, 0);
T_distance_ss(RowA1,ColumnA1,RowA2,ColumnA2,RowB1,ColumnB1,RowB2,ColumnB2,
&distance_min,&distance_max);
aa_min = get_d(distance_min,0);
aa_max = get_d(distance_max,0);
Beispiel (HDevelop)
dev_open_window (0, 0, 512, 512, 'black', WindowHandle)
Row1 := 300
Column1 := 200
Row2 := 100
Column2 := 300
gen_contour_polygon_xld (Line1, [Row1,Row2], [Column1,Column2])
Column := 100
Offset := 30
for Row := 40 to 100 by 20
gen_contour_polygon_xld (Line2, [Row, Row+Offset], \
[Column, Column+Offset])
distance_ss (Row, Column, Row+Offset, Column+Offset, Row1, Column1, \
Row2, Column2, DistanceMin, DistanceMax)
Offset := Offset+50
endfor
Beispiel (HDevelop)
dev_open_window (0, 0, 512, 512, 'black', WindowHandle)
Row1 := 300
Column1 := 200
Row2 := 100
Column2 := 300
gen_contour_polygon_xld (Line1, [Row1,Row2], [Column1,Column2])
Column := 100
Offset := 30
for Row := 40 to 100 by 20
gen_contour_polygon_xld (Line2, [Row, Row+Offset], \
[Column, Column+Offset])
distance_ss (Row, Column, Row+Offset, Column+Offset, Row1, Column1, \
Row2, Column2, DistanceMin, DistanceMax)
Offset := Offset+50
endfor
Ergebnis
distance_ssdistance_ssDistanceSsDistanceSsdistance_ss liefert den Wert 2 (
H_MSG_TRUE)
.
Alternativen
distance_ppdistance_ppDistancePpDistancePpdistance_pp
Siehe auch
distance_pldistance_plDistancePlDistancePldistance_pl,
distance_psdistance_psDistancePsDistancePsdistance_ps
Modul
Foundation