source: Sophya/trunk/FrEROS/AnaLC/transfost.c@ 3444

Last change on this file since 3444 was 3308, checked in by ansari, 18 years ago

Creation du module AnaLC (lecture suivi EROS avec SOPHYA) dans la base
SOPHYA - cmv+reza 22/08/2007

  • Property svn:executable set to *
File size: 2.7 KB
Line 
1#include <stdlib.h>
2#include <stdio.h>
3#include <string.h>
4
5#include "machdefs.h"
6#include "fmath.h"
7
8#include "transfost.h"
9
10/* Nouvelle-Fonction */
11void PrintTransfo(TRANSFO *tr)
12
13/* Impression des coefficients du 1er ordre */
14{
15int k;
16char sg[3],sgp[3],*st[2];
17
18strcpy(sg,"XY"); strcpy(sgp,"xy");
19st[0] = "Source"; st[1] = "Dest";
20
21printf("PrintTransfo: Degre = %d (Coeff d'ordre 1) \n", tr->DegPolxy);
22for(k=0; k<2; k++)
23 printf(" T%c %c = %10.5f + %10.5f x + %10.5f y \n", sgp[k], sg[k],
24 tr->Polxy[0][0][k], tr->Polxy[1][0][k], tr->Polxy[0][1][k]);
25
26for(k=0; k<2; k++)
27 {
28 printf("Lim[%6s] MidX,Y= %10g %10g LargX,Y= %10g %10g\n",
29 st[k],tr->midx[k], tr->midy[k], tr->largx[k], tr->largy[k]);
30 printf(" XMin,Max= %10g %10g YMin,Max= %10g %10g \n",
31 tr->xmin[k], tr->xmax[k], tr->ymin[k], tr->ymax[k]);
32 }
33
34return;
35}
36
37
38/* Nouvelle-Fonction */
39void RedCord(double x, double y, double *xr, double *yr, TRANSFO *transf, int i)
40{
41 *xr = (x - transf->midx[i]) / transf->largx[i];
42 *yr = (y - transf->midy[i]) / transf->largy[i];
43}
44
45
46/* Nouvelle-Fonction */
47void ExpCord(double xr, double yr, double *x, double *y, TRANSFO *transf, int i)
48{
49 *x = transf->largx[i] * xr + transf->midx[i];
50 *y = transf->largy[i] * yr + transf->midy[i];
51}
52
53
54/* Nouvelle-Fonction */
55void CordTransf(double xS, double yS, double *xD, double *yD, TRANSFO *transf)
56{
57 double xi,yi,xo,yo,xk,yl;
58 int k,l;
59
60 RedCord(xS,yS,&xi,&yi,transf,0);
61 if (transf->DegPolxy == 1) {
62 xo = transf->Polxy[0][0][0] + transf->Polxy[1][0][0]*xi + transf->Polxy[0][1][0]*yi;
63 yo = transf->Polxy[0][0][1] + transf->Polxy[1][0][1]*xi + transf->Polxy[0][1][1]*yi;
64 }
65 else {
66 xo = yo = 0.0;
67 xk = 1.0;
68 for (k = 0; k<=transf->DegPolxy; k++) {
69 yl = 1.0;
70 for (l = 0; l<=transf->DegPolxy-k; l++) {
71 xo += transf->Polxy[k][l][0]*xk*yl;
72 yo += transf->Polxy[k][l][1]*xk*yl;
73 yl *= yi;
74 }
75 xk *= xi;
76 }
77 }
78 ExpCord(xo,yo,xD,yD,transf,1);
79}
80
81
82/* Nouvelle-Fonction */
83void CordTransfEros2(double xS,double yS,double *xD,double *yD,TRANSFO *transf)
84/*
85Dans Eros2 les infos concernant les coordonnees reduites sont codees
86dans TRANSFO mais la transformation est donnee pour les coordonnees normales
87*/
88{
89 double xk,yl;
90 int k,l;
91
92 if (transf->DegPolxy == 1) {
93 *xD = transf->Polxy[0][0][0] + transf->Polxy[1][0][0]*xS + transf->Polxy[0][1][0]*yS;
94 *yD = transf->Polxy[0][0][1] + transf->Polxy[1][0][1]*xS + transf->Polxy[0][1][1]*yS;
95 }
96 else {
97 *xD = *yD = 0.0;
98 xk = 1.0;
99 for (k = 0; k<=transf->DegPolxy; k++) {
100 yl = 1.0;
101 for (l = 0; l<=transf->DegPolxy-k; l++) {
102 *xD += transf->Polxy[k][l][0]*xk*yl;
103 *yD += transf->Polxy[k][l][1]*xk*yl;
104 yl *= yS;
105 }
106 xk *= xS;
107 }
108 }
109}
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