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e_im_prec.c
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Created
Sun, Dec 29, 04:51
Size
3 KB
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text/x-c
Expires
Tue, Dec 31, 04:51 (7 h, 58 m)
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blob
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Raw Data
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23218713
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R1448 Lenstool-HPC
e_im_prec.c
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#include<stdio.h>
#include<math.h>
#include "fonction.h"
#include "constant.h"
#include"dimension.h"
#include "structure.h"
//#define DDEBUG
/****************************************************************/
/* nom: e_im_prec */
/* auteur: Jean-Paul Kneib */
/* date: 10/02/92 */
/* place: Toulouse
*
* Return in *A the smallest couple of triangles (source, image plane) in which P is
* located according to the minimum surface required for the source triangle.
*
* Stop when the triangle in the source plane contains the source P"and
* has a surface lower than DMIN^2.
*
* it variable counts the number of loop needed to reach the smallest triangle.
*
* Warning : The function can return a triangle that doesnt comply
* with those requirements if the it variable becomes larger
* than NITMAX.
*
* Parameters :
* - E : Triplet of simulated images and corresponding sources (6 points)
* - P : Barycenter of the original sources
* - dlsds : Lens efficiency
* - it : loop counter
* - A : returned bitriangle
*
* Global variables used :
* - in e_inthere() : G, lens, lens_table
* - in e_transform() : G, lens, lens_table
*/
void e_im_prec(const struct bitriplet *E, /* Triplet of simulated images and corresponding sources*/
const struct point *P, /* Barycenter of the original sources */
double dlsds, int *it,
struct bitriplet *A)
{
struct bitriplet I;
double det;
#ifdef DDEBUG
// plot the E triangle in red in the image plane
// and in blue in the source plane
const extern struct g_mode M;
FILE *dbg;
dbg = fopen( "imsearch.reg", "a");
fprintf( dbg, "fk5;polygon(%lf,%lf,%lf,%lf,%lf,%lf) #color=red\n",
M.ref_ra + E->i.a.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->i.a.y / 3600,
M.ref_ra + E->i.b.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->i.b.y / 3600,
M.ref_ra + E->i.c.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->i.c.y / 3600 );
fprintf( dbg, "fk5;polygon(%lf,%lf,%lf,%lf,%lf,%lf) #color=blue\n",
M.ref_ra + E->s.a.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->s.a.y / 3600,
M.ref_ra + E->s.b.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->s.b.y / 3600,
M.ref_ra + E->s.c.x / -3600 / cos(M.ref_dec*DTR),
M.ref_dec + E->s.c.y / 3600 );
fclose(dbg);
#endif
interieur(&E->i, &I.i); //return the triangle I.i inside the triangle E.i
e_transform(&I.i, dlsds, &I.s); //return the triangle I.i in the source plane
e_inthere(E, &I, P, dlsds, A); //return the small couple of triangles A in which P is located
det = determinant(&A->s.a, &A->s.b, &A->s.c); //det is the surface of the source triangle
if ( fabs(det) < DMIN*DMIN || (*it)++ > NITMAX ) // cf also e_test.c::
return;
else
{
I.i = A->i;
I.s = A->s;
e_im_prec(&I, P, dlsds, it, A);
}
}
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