#include #include #define NRANSI #include "nrutil.h" #define NE 3 #define M 41 #define NB 1 #define NSI NE #define NYJ NE #define NYK M #define NCI NE #define NCJ (NE-NB+1) #define NCK (M+1) #define NSJ (2*NE+1) int mm,n,mpt=M; float h,c2=0.0,anorm,x[M+1]; int main(void) /* Program sfroid */ { float plgndr(int l, int m, float x); void solvde(int itmax, float conv, float slowc, float scalv[], int indexv[], int ne, int nb, int m, float **y, float ***c, float **s); int i,itmax,k,indexv[NE+1]; float conv,deriv,fac1,fac2,q1,slowc,scalv[NE+1]; float **y,**s,***c; y=matrix(1,NYJ,1,NYK); s=matrix(1,NSI,1,NSJ); c=f3tensor(1,NCI,1,NCJ,1,NCK); itmax=100; conv=5.0e-6; slowc=1.0; h=1.0/(M-1); printf("\nenter m n\n"); scanf("%d %d",&mm,&n); if (n+mm & 1) { indexv[1]=1; indexv[2]=2; indexv[3]=3; } else { indexv[1]=2; indexv[2]=1; indexv[3]=3; } anorm=1.0; if (mm) { q1=n; for (i=1;i<=mm;i++) anorm = -0.5*anorm*(n+i)*(q1--/i); } for (k=1;k<=(M-1);k++) { x[k]=(k-1)*h; fac1=1.0-x[k]*x[k]; fac2=exp((-mm/2.0)*log(fac1)); y[1][k]=plgndr(n,mm,x[k])*fac2; deriv = -((n-mm+1)*plgndr(n+1,mm,x[k])- (n+1)*x[k]*plgndr(n,mm,x[k]))/fac1; y[2][k]=mm*x[k]*y[1][k]/fac1+deriv*fac2; y[3][k]=n*(n+1)-mm*(mm+1); } x[M]=1.0; y[1][M]=anorm; y[3][M]=n*(n+1)-mm*(mm+1); y[2][M]=(y[3][M]-c2)*y[1][M]/(2.0*(mm+1.0)); scalv[1]=fabs(anorm); scalv[2]=(y[2][M] > scalv[1] ? y[2][M] : scalv[1]); scalv[3]=(y[3][M] > 1.0 ? y[3][M] : 1.0); for (;;) { printf("\nEnter c**2 or 999 to end.\n"); scanf("%f",&c2); if (c2 == 999) { free_f3tensor(c,1,NCI,1,NCJ,1,NCK); free_matrix(s,1,NSI,1,NSJ); free_matrix(y,1,NYJ,1,NYK); return 0; } solvde(itmax,conv,slowc,scalv,indexv,NE,NB,M,y,c,s); printf("\n %s %2d %s %2d %s %7.3f %s %10.6f\n", "m =",mm," n =",n," c**2 =",c2, " lamda =",y[3][1]+mm*(mm+1)); } } #undef NRANSI