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source: Sophya/trunk/Poubelle/archTOI.old/templocator.cc@ 435

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Last change on this file since 435 was 435, checked in by ansari, 26 years ago
toto
File size: 5.1 KB

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[419]	1	#include "templocator.h"
	2	#include <math.h>
	3	extern "C" {
	4	#include "aa_hadec.h"
	5	}
	6
[423]	7	#include "fitsio.h"
	8	#include "plgalcross.h"
	9
[419]	10	#ifndef M_PI
	11	#define M_PI 3.14159265358979323846
	12	#endif
	13
	14	TempLocator tempLocator;
	15
	16	TempLocator::TempLocator()
	17	{
	18	lon = lat = ts = 0;
[423]	19	ra = dec = -99999;
	20	xSampleNum = -99999;
	21	fitsfile* fptr;
	22	int status=0;
	23	fits_open_file(&fptr, "samplenum_gal_cross.fits", READONLY, &status);
	24	int simple, bitpix, naxis;
	25	long naxes;
	26	long pcount, gcount;
	27	int extend;
	28	fits_read_imghdr(fptr, 1, &simple, &bitpix, &naxis, &naxes, &pcount, &gcount, &extend, &status);
	29	nGalCross = naxes;
	30	crossings = new long[nGalCross];
	31	int anynul;
	32	fits_read_img_lng(fptr, 0, 1, nGalCross, 0, crossings, &anynul, &status);
	33	fits_close_file(fptr, &status);
	34	fits_report_error(stderr, status); /* print out any error messages */
[419]	35	}
[423]	36
	37
[419]	38	void TempLocator::setEarthPos(double lon, double lat) {
[423]	39	if (this->lon == lon && this->lat == lat) return;
[419]	40	this->lon = lon;
	41	this->lat = lat;
[423]	42	ra = dec = -99999; xSampleNum = -99999;
[419]	43	}
[423]	44
[419]	45	void TempLocator::setTSid(double ts) {
[423]	46	if (this->ts == ts) return;
[419]	47	this->ts = ts;
[423]	48	ra = dec = -99999; xSampleNum = -99999;
[419]	49	}
	50
[423]	51	void TempLocator::ComputeZenith() {
	52	double ha;
	53	aa_hadec (lat * M_PI/180, .5 * M_PI, 0, &ha, &dec);
	54	ra = - (ha * 180. / M_PI / 15) + (ts/3600.);
	55	dec = dec * 180. / M_PI;
	56	}
	57
[419]	58	double TempLocator::getAlphaZenith() {
[423]	59	if (ra < -100) ComputeZenith();
[419]	60	return ra;
	61	}
	62
	63	double TempLocator::getDeltaZenith() {
[423]	64	if (dec < -100) ComputeZenith();
[419]	65	return dec;
	66	}
	67
[423]	68	void TempLocator::findGeomFromGC(int sampleNum) // pour le bolo qui voit les xing
	69	{
	70	if (sampleNum == xSampleNum) return;
	71	if (dec < -100) ComputeZenith();
	72
	73	azimBolGC = -9999;
	74
	75	// On trouve les croisements juste avant et juste apres notre sampleNum
	76	int icross;
	77	for (icross=0; icross<nGalCross; icross++) {
	78	if (crossings[icross] > sampleNum) break;
	79	}
[424]	80	if (icross == 0 \|\| icross >= nGalCross) return;
[423]	81
[424]	82	// On trouve l'azimut du croisement principal pour notre position actuelle
	83	double alpG = 12. + 51./60. + 30./3600.;
	84	double delG = 27. + 07./60. + 42./3600.;
	85	double azCr1, azCr2;
	86	int rc = PlGalCross(ts/3600., lat, (90. - 41.), alpG, delG, azCr1, azCr2);
[426]	87	if (rc != 0) return; // pas deux points d'intersection
[423]	88
[426]	89	// Il faut determiner le croisement principal, ie le plus proche
	90	// du centre galactique. Pendant le vol de Trapani, c'etait celui
	91	// le plus proche de 220° d'azimut.
	92
	93	double azCross = azCr1;
	94	if (fabs(azCr2-220) < fabs(azCr1-220)) azCross = azCr2;
	95
	96	double rotSpeed = 360./(crossings[icross] - crossings[icross-1]); // °/sample
	97
[435]	98	azimBolGC = azCross - (sampleNum - (crossings[icross-1]+12))*rotSpeed;
	99	// azimut du bolo 1 (central) pour sampleNum
[426]	100	if (azimBolGC > 360) azimBolGC -= 360;
[423]	101	}
[419]	102
[426]	103	void TempLocator::getAltAzBolo(int sampleNum, int ibolo, double& elv, double& az) {
	104	findGeomFromGC(sampleNum);
	105	double delElv = 0;
[435]	106	double delAz = 0; // relative to ch1-bolo1
[426]	107	elv = -99999;
	108	az = -99999;
	109	switch (ibolo) {
	110	case 11:
	111	delElv = 0;
[435]	112	delAz = 0;
[426]	113	break;
	114	case 8:
	115	delElv = 0.78 * sqrt(3.)/2.;
[435]	116	delAz = 0.78 * 1./2.;
[426]	117	break;
	118	case 13:
	119	delElv = - 0.78 * sqrt(3.)/2.;
[435]	120	delAz = 0.78 * 1./2.;
[426]	121	break;
	122	case 9:
[435]	123	delElv = - 0.78 * sqrt(3.)/2.;
[426]	124	delAz = 0.78 * 1./2.;
	125	break;
	126	case 4:
	127	delElv = 0.;
[435]	128	delAz = 0.78;
[426]	129	break;
	130	case 15:
	131	delElv = 0.;
[435]	132	delAz = - 0.78;
[426]	133	break;
	134	default:
	135	return;
	136	}
	137	delAz /= cos(41 * M_PI/180);
	138	elv = 41. + delElv;
	139	az = azimBolGC + delAz;
	140	return;
	141	}
[423]	142
[426]	143	double TempLocator::getAzimutBolo(int sampleNum, int ibolo) {
	144	double elv, az;
	145	getAltAzBolo(sampleNum, ibolo, elv, az);
	146	return az;
	147	}
	148
	149	double TempLocator::getElvBolo(int sampleNum, int ibolo) {
	150	double elv, az;
	151	getAltAzBolo(sampleNum, ibolo, elv, az);
	152	return elv;
	153	}
	154
	155	double TempLocator::getAlphaBolo(int sampleNum, int ibolo) {
	156	double elv, az;
	157	getAltAzBolo(sampleNum, ibolo, elv, az);
	158	double ha;
	159	aa_hadec (lat * M_PI/180, elv * M_PI/180, az * M_PI/180, &ha, &dec);
	160	ra = - (ha * 180. / M_PI / 15) + (ts/3600.);
	161	dec = dec * 180. / M_PI;
	162	return ra;
	163	}
	164
	165	double TempLocator::getDeltaBolo(int sampleNum, int ibolo) {
	166	double elv, az;
	167	getAltAzBolo(sampleNum, ibolo, elv, az);
	168	double ha;
	169	aa_hadec (lat * M_PI/180, elv * M_PI/180, az * M_PI/180, &ha, &dec);
	170	ra = - (ha * 180. / M_PI / 15) + (ts/3600.);
	171	dec = dec * 180. / M_PI;
	172	return dec;
	173	}
	174
[432]	175	double TempLocator::getAlphaCenter(int sampleNum) {
	176	return getAlphaBolo(sampleNum, 11);
	177	}
[426]	178
[432]	179	double TempLocator::getDeltaCenter(int sampleNum) {
	180	return getDeltaBolo(sampleNum, 11);
	181	}
[426]	182
[432]	183
	184
	185
[423]	186	// ;
	187	// ; /\ 4 2
	188	// ; elevation \|\| positive scanning, clockwise
	189	// ; \|\| 6 1 5 ---------->
	190	// ; \|\| == positive azimut
	191	// ; \|\| x 3
	192	// \|----\| = 0.78 deg / cos(elev)
	193	// bol 1 = 41° elevation
[433]	194

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