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circle.cc@ 2750

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Last change on this file since 2750 was 2615, checked in by cmv, 21 years ago
using namespace sophya enleve de machdefs.h, nouveau sopnamsp.h cmv 10/09/2004
File size: 6.2 KB

Line
1	#include <math.h>
2	#include "sopnamsp.h"
3	#include "circle.h"
4	//++
5	// Class Circle
6	//
7	// include circle.h math.h
8	//--
9	//++
10	//
11	// Links Parents
12	//
13	// Geometry
14	//
15	//--
16	//++
17	// Titre Constructors
18	//--
19	//++
20	Circle::Circle()
21	//
22	//--
23	{
24	UnitVector temp;
25	SetCircle(temp,M_PI/2.);
26	}
27	//++
28	Circle::Circle(double theta, double phi, double aperture)
29	//
30	//--
31	{
32	UnitVector temp(theta,phi);
33	SetCircle(temp,aperture);
34	}
35	//++
36	Circle::Circle(double x, double y, double z, double aperture)
37	//
38	//--
39	{
40	UnitVector temp(x,y,z);
41	SetCircle(temp,aperture);
42	}
43	//++
44	Circle::Circle(const Vector3d& v, double aperture)
45	//
46	//--
47	{
48	UnitVector temp=v;
49	SetCircle(temp,aperture);
50	}
51	//++
52	Circle::Circle(const Circle& c)
53	//
54	// copy constructor
55	//--
56	{
57	UnitVector temp= c.Omega();
58	SetCircle(temp,c._angouv);
59	}
60	//++
61	// Titre Public Methods
62	//--
63	//++
64	void Circle::SetCircle(const UnitVector& temp, double aperture)
65	//
66	//--
67	{
68	_spinunitaxis= temp;
69
70	_angouv = aperture;
71	_cangouv= cos(_angouv);
72	_sangouv= sin(_angouv);
73
74	_spinaxis=_spinunitaxis*fabs(_cangouv);
75
76	_theta =_spinunitaxis.Theta();
77	_ctheta= cos(_theta);
78	_stheta= sin(_theta);
79
80	_phi =_spinunitaxis.Phi();
81	_cphi= cos(_phi);
82	_sphi= sin(_phi);
83
84	_x= _spinunitaxis.X();
85	_y= _spinunitaxis.Y();
86	_z= _spinunitaxis.Z();
87	}
88	//++
89	void Circle::SetSpinAxis(double theta, double phi)
90	//
91	//--
92	{
93	UnitVector temp(theta,phi);
94	SetCircle(temp,_angouv);
95	}
96	//++
97	void Circle::SetSpinAxis(const Vector3d& u)
98	//
99	//--
100	{
101	UnitVector temp=u;
102	SetCircle(temp,_angouv);
103	}
104	//++
105	void Circle::SetSpinAxis(double x, double y, double z)
106	//
107	//--
108	{
109	UnitVector temp(x,y,z);
110	SetCircle(temp,_angouv);
111	}
112	//++
113	void Circle::SetApertureAngle(double aperture)
114	//
115	//--
116	{
117	SetCircle(_spinunitaxis,aperture);
118	}
119	//++
120	void Circle::SetApertureAngle(const Circle& c)
121	//
122	//--
123	{
124	SetCircle(_spinunitaxis,c._angouv);
125	}
126
127	//++
128	UnitVector Circle::ConvToSphere(double psi) const
129	//
130	// Return UnitVector corresponding to a given position donnee on the circle
131	//--
132	{
133	psi=mod(psi,pi2);
134	double xout, yout, zout;
135	double cosa=cos(_angouv);
136	double sina=sin(_angouv);
137	double cost=cos(_theta);
138	double sint=sin(_theta);
139	double cosphi=cos(_phi);
140	double sinphi=sin(_phi);
141	double cosp=cos(psi);
142	double sinp=sin(psi);
143	xout = cosasintcosphi+sina(sinphisinp-costcosphicosp);
144	yout = cosasintsinphi-sina(cosphisinp+costsinphicosp);
145	zout = cosacost+sinasint*cosp;
146	return UnitVector(xout,yout,zout);
147	}
148	//++
149	UnitVector Circle::TanOnCircle(double psi) const
150	//
151	// Return UnitVector corresponding to the tangent to the circle
152	// at given position on the circle.
153	//--
154	{
155	psi=mod(psi,pi2);
156	double xout, yout, zout;
157	double cost=cos(_theta);
158	double sint=sin(_theta);
159	double cosphi=cos(_phi);
160	double sinphi=sin(_phi);
161	double cosp=cos(psi);
162	double sinp=sin(psi);
163	xout = cospsinphi+sinpsint*cosphi;
164	yout = -cospcosphi+sinpsint*sinphi;
165	zout = -sinp*cost;
166	return UnitVector(xout,yout,zout);
167	}
168	//++
169	UnitVector Circle::EPhi(double psi) const
170	//
171	// Return the vector tangent to the sphere in the plane (xy)
172	// at a given position on the circle.
173	//--
174	{
175	psi=mod(psi,pi2);
176	return ConvToSphere(psi).EPhi();
177	}
178	//++
179	UnitVector Circle::ETheta(double psi) const
180	//
181	// Return the other tangent vector( orthogonal to EPhi)--
182	// see previous method
183	//--
184	{
185	psi=mod(psi,pi2);
186	return ConvToSphere(psi).ETheta();
187	}
188	//++
189	double Circle::SepAngleTanEPhi02PI(double psi) const
190	//
191	// Return separation angle in [0,2Pi] at a given position on the
192	// circle and EPhi
193	//--
194	{
195	psi=mod(psi,pi2);
196	UnitVector pol=this->TanOnCircle(psi);
197	UnitVector ephi=this->EPhi(psi);
198	double angle=pol.SepAngle(ephi);
199	if( pol.Z() <= 0 ) angle=pi2-angle;
200	return angle;
201	}
202	//++
203	void Circle::Print(ostream& os) const
204	//
205	//--
206	{
207	os << "1 - Circle - Axe de Spin Unitaire : " << _spinunitaxis << endl;
208	os << "1 - Circle - Axe de Spin : " << _spinaxis << endl;
209	os << "2 - Circle - Angle d'ouverture : " << _angouv << endl;
210	os << "3 - Circle - Theta,Phi : " << _theta << "," << _phi << endl;
211	os << "4 - Circle - x,y,z : " << _x << "," << _y << "," << _z << endl;
212	}
213	//++
214	//
215	// inline double Theta() const
216	// inline double Phi() const
217	// inline double ApertureAngle() const
218	// inline Vector3d Omega() const
219	//--
220	//++
221	// Titre Operators
222	//--
223
224	Circle& Circle::operator=(const Circle& c)
225	{
226	if( this != &c )
227	{
228	UnitVector temp(c.Omega());
229	SetCircle(temp,c.ApertureAngle());
230	}
231	return *this;
232	}
233	//++
234	bool Circle::operator==(const Circle& c) const
235	//
236	//--
237	{
238	bool flag;
239	if( this == &c ) flag=true;
240	else flag=false;
241	return flag;
242	}
243	//++
244	bool Circle::operator!=(const Circle& c) const
245	//
246	//--
247	{
248	return (bool)(1-(this->operator==(c)));
249	}
250	//
251	bool Circle::Intersection(const Circle& c) const
252	{
253	double alphak= _angouv;
254	double alphal= c._angouv;
255	Vector3d ok= _spinaxis;
256	Vector3d ol= c._spinaxis;
257	double gamma= ok.SepAngle(ol);
258
259	if(fabs(alphak-alphal) < gamma && gamma <= (alphak+alphal) && this != &c) {
260	return true;
261	} else {
262	return false;
263	}
264	}
265	//
266	bool Circle::Intersection(const Circle& c, double* psi) const
267	{
268	double alphak= _angouv;
269	double alphal= c._angouv;
270	Vector3d ok= _spinaxis;
271	Vector3d ol= c._spinaxis;
272	double gamma= ok.SepAngle(ol);
273
274	if(fabs(alphak-alphal) < gamma && gamma <= (alphak+alphal) && this != &c) {
275
276	double sgamma= sin(gamma);
277	double cgamma= cos(gamma);
278
279	double sdphi= _sphic._cphi - _cphic._sphi;
280	double cdphi= _cphic._cphi + _sphic._sphi;
281
282	double ssk= c._stheta*sdphi/sgamma;
283	double csk= (c._ctheta_stheta-c._stheta_ctheta*cdphi)/sgamma;
284
285	double ssl= -_stheta*sdphi/sgamma;
286	double csl= (_cthetac._stheta-_sthetac._ctheta*cdphi)/sgamma;
287
288	double ak= atan2(ssk,csk);
289	double al= atan2(ssl,csl);
290	double omegak= acos((c._cangouv-_cangouv*cgamma)/sgamma/_sangouv);
291	double omegal= acos((_cangouv-c._cangouv*cgamma)/sgamma/c._sangouv);
292
293	psi[0]= fmod(ak-omegak+pi2,pi2);
294	psi[1]= fmod(ak+omegak+pi2,pi2);
295	psi[2]= fmod(al-omegal+pi2,pi2);
296	psi[3]= fmod(al+omegal+pi2,pi2);
297
298	if(psi[0] > psi[1]) {
299	swap(psi[0],psi[1]);
300	swap(psi[2],psi[3]);
301	}
302	return true;
303
304	} else {
305	psi[0] = -1.;
306	psi[1] = -1.;
307	psi[2] = -1.;
308	psi[3] = -1.;
309	return false;
310	}
311	}

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source: Sophya/trunk/SophyaLib/Samba/circle.cc@ 2750

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