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version 1.14, 2002/02/20 17:05:44	version 1.23, 2002/02/22 18:08:30
Line 1	Line 1
	/* $Id$
/********************* Imach ************************************	Interpolate Markov Chain
This program computes Healthy Life Expectancies from cross-longitudinal
data. Cross-longitudinal consist in a first survey ("cross") where	Short summary of the programme:
individuals from different ages are interviewed on their health status
or degree of disability. At least a second wave of interviews	This program computes Healthy Life Expectancies from
("longitudinal") should measure each new individual health status.	cross-longitudinal data. Cross-longitudinal data consist in: -1- a
Health expectancies are computed from the transistions observed between	first survey ("cross") where individuals from different ages are
waves and are computed for each degree of severity of disability (number	interviewed on their health status or degree of disability (in the
of life states). More degrees you consider, more time is necessary to	case of a health survey which is our main interest) -2- at least a
reach the Maximum Likelihood of the parameters involved in the model.	second wave of interviews ("longitudinal") which measure each change
The simplest model is the multinomial logistic model where pij is	(if any) in individual health status. Health expectancies are
the probabibility to be observed in state j at the second wave conditional	computed from the time spent in each health state according to a
to be observed in state i at the first wave. Therefore the model is:	model. More health states you consider, more time is necessary to reach the
log(pij/pii)= aij + bijage+ cijsex + etc , where 'age' is age and 'sex'	Maximum Likelihood of the parameters involved in the model. The
is a covariate. If you want to have a more complex model than "constant and	simplest model is the multinomial logistic model where pij is the
age", you should modify the program where the markup	probabibility to be observed in state j at the second wave
Covariates have to be included here again invites you to do it.	conditional to be observed in state i at the first wave. Therefore
More covariates you add, less is the speed of the convergence.	the model is: log(pij/pii)= aij + bijage+ cijsex + etc , where
	'age' is age and 'sex' is a covariate. If you want to have a more
The advantage that this computer programme claims, comes from that if the	complex model than "constant and age", you should modify the program
delay between waves is not identical for each individual, or if some	where the markup Covariates have to be included here again invites
individual missed an interview, the information is not rounded or lost, but	you to do it. More covariates you add, slower the
taken into account using an interpolation or extrapolation.	convergence.
hPijx is the probability to be
observed in state i at age x+h conditional to the observed state i at age	The advantage of this computer programme, compared to a simple
x. The delay 'h' can be split into an exact number (nh*stepm) of	multinomial logistic model, is clear when the delay between waves is not
unobserved intermediate states. This elementary transition (by month or	identical for each individual. Also, if a individual missed an
quarter trimester, semester or year) is model as a multinomial logistic.	intermediate interview, the information is lost, but taken into
The hPx matrix is simply the matrix product of nh*stepm elementary matrices	account using an interpolation or extrapolation.
and the contribution of each individual to the likelihood is simply hPijx.
	hPijx is the probability to be observed in state i at age x+h
	conditional to the observed state i at age x. The delay 'h' can be
	split into an exact number (nh*stepm) of unobserved intermediate
	states. This elementary transition (by month or quarter trimester,
	semester or year) is model as a multinomial logistic. The hPx
	matrix is simply the matrix product of nh*stepm elementary matrices
	and the contribution of each individual to the likelihood is simply
	hPijx.

Also this programme outputs the covariance matrix of the parameters but also	Also this programme outputs the covariance matrix of the parameters but also
of the life expectancies. It also computes the prevalence limits.	of the life expectancies. It also computes the prevalence limits.
Line 48	Line 56
#include <unistd.h>	#include <unistd.h>

#define MAXLINE 256	#define MAXLINE 256
	#define GNUPLOTPROGRAM "..\\gp37mgw\\wgnuplot"
#define FILENAMELENGTH 80	#define FILENAMELENGTH 80
/#define DEBUG/	/#define DEBUG/
#define windows	#define windows
Line 67	Line 76
#define AGEBASE 40	#define AGEBASE 40


	int erreur; /* Error number */
int nvar;	int nvar;
int cptcovn, cptcovage=0, cptcoveff=0,cptcov;	int cptcovn, cptcovage=0, cptcoveff=0,cptcov;
int npar=NPARMAX;	int npar=NPARMAX;
int nlstate=2; /* Number of live states */	int nlstate=2; /* Number of live states */
int ndeath=1; /* Number of dead states */	int ndeath=1; /* Number of dead states */
int ncovmodel, ncov; /* Total number of covariables including constant a121 +b12x ncovmodel=2 */	int ncovmodel, ncov; /* Total number of covariables including constant a121 +b12x ncovmodel=2 */
int popbased=0, fprev,lprev;	int popbased=0;

int wav; / Number of waves for this individuual 0 is possible */	int wav; / Number of waves for this individuual 0 is possible */
int maxwav; /* Maxim number of waves */	int maxwav; /* Maxim number of waves */
Line 85 double jmean; /* Mean space between 2 wa	Line 95 double jmean; /* Mean space between 2 wa
double oldm, newm, *savm; / Working pointers to matrices */	double oldm, newm, *savm; / Working pointers to matrices */
double oldms, newms, *savms; / Fixed working pointers to matrices */	double oldms, newms, *savms; / Fixed working pointers to matrices */
FILE fic,ficpar, ficparo,ficres, ficrespl, ficrespij, ficrest,ficresf;	FILE fic,ficpar, ficparo,ficres, ficrespl, ficrespij, ficrest,ficresf;
FILE ficgp, fichtm,*ficresprob;	FILE ficgp, fichtm,ficresprob,ficpop;
FILE *ficreseij;	FILE *ficreseij;
char filerese[FILENAMELENGTH];	char filerese[FILENAMELENGTH];
FILE *ficresvij;	FILE *ficresvij;
Line 129 int m,nb;	Line 139 int m,nb;
int num, firstpass=0, lastpass=4,cod, ncodemax, Tage;	int num, firstpass=0, lastpass=4,cod, ncodemax, Tage;
double *agev,moisnais, annais, moisdc, andc,mint, *anint;	double *agev,moisnais, annais, moisdc, andc,mint, *anint;
double pmmij, probs, **mobaverage;	double pmmij, probs, **mobaverage;
	double dateintmean=0;

double *weight;	double *weight;
int *s; / Status */	int *s; / Status */
Line 139 double ftol=FTOL; /* Tolerance for compu	Line 150 double ftol=FTOL; /* Tolerance for compu
double ftolhess; /* Tolerance for computing hessian */	double ftolhess; /* Tolerance for computing hessian */

/************** split ***********************/	/************** split ***********************/
static int split( char path, char dirc, char *name )	static int split( char path, char dirc, char name, char ext, char *finame )
{	{
char s; / pointer */	char s; / pointer */
int l1, l2; /* length counters */	int l1, l2; /* length counters */

l1 = strlen( path ); /* length of path */	l1 = strlen( path ); /* length of path */
if ( l1 == 0 ) return( GLOCK_ERROR_NOPATH );	if ( l1 == 0 ) return( GLOCK_ERROR_NOPATH );
	#ifdef windows
s = strrchr( path, '\\' ); /* find last / */	s = strrchr( path, '\\' ); /* find last / */
	#else
	s = strrchr( path, '/' ); /* find last / */
	#endif
if ( s == NULL ) { /* no directory, so use current */	if ( s == NULL ) { /* no directory, so use current */
#if defined(__bsd__) /* get current working directory */	#if defined(__bsd__) /* get current working directory */
extern char *getwd( );	extern char *getwd( );
Line 169 static int split( char path, char dirc	Line 184 static int split( char path, char dirc
dirc[l1-l2] = 0; /* add zero */	dirc[l1-l2] = 0; /* add zero */
}	}
l1 = strlen( dirc ); /* length of directory */	l1 = strlen( dirc ); /* length of directory */
	#ifdef windows
if ( dirc[l1-1] != '\\' ) { dirc[l1] = '\\'; dirc[l1+1] = 0; }	if ( dirc[l1-1] != '\\' ) { dirc[l1] = '\\'; dirc[l1+1] = 0; }
	#else
	if ( dirc[l1-1] != '/' ) { dirc[l1] = '/'; dirc[l1+1] = 0; }
	#endif
	s = strrchr( name, '.' ); /* find last / */
	s++;
	strcpy(ext,s); /* save extension */
	l1= strlen( name);
	l2= strlen( s)+1;
	strncpy( finame, name, l1-l2);
	finame[l1-l2]= 0;
return( 0 ); /* we're done */	return( 0 ); /* we're done */
}	}

Line 717 double pmij(double ps, double *cov,	Line 743 double pmij(double ps, double *cov,
s2 += x[(i-1)nlstatencovmodel+(j-2)ncovmodel+nc+(i-1)(ndeath-1)ncovmodel]cov[nc];	s2 += x[(i-1)nlstatencovmodel+(j-2)ncovmodel+nc+(i-1)(ndeath-1)ncovmodel]cov[nc];
/printf("Int j>i s1=%.17e, s2=%.17e %lx %lx\n",s1,s2,s1,s2);/	/printf("Int j>i s1=%.17e, s2=%.17e %lx %lx\n",s1,s2,s1,s2);/
}	}
ps[i][j]=(s2);	ps[i][j]=s2;
}	}
}	}
/ps[3][2]=1;/	/ps[3][2]=1;/
Line 900 void mlikeli(FILE *ficres,double p[], in	Line 926 void mlikeli(FILE *ficres,double p[], in
powell(p,xi,npar,ftol,&iter,&fret,func);	powell(p,xi,npar,ftol,&iter,&fret,func);

printf("\n#Number of iterations = %d, -2 Log likelihood = %.12f\n",iter,func(p));	printf("\n#Number of iterations = %d, -2 Log likelihood = %.12f\n",iter,func(p));
fprintf(ficres,"#Number of iterations = %d, -2 Log likelihood = %.12f ",iter,func(p));	fprintf(ficres,"#Number of iterations = %d, -2 Log likelihood = %.12f \n",iter,func(p));

}	}

Line 1150 void lubksb(double *a, int n, int indx	Line 1176 void lubksb(double *a, int n, int indx
}	}

/********** Frequencies ******************/	/********** Frequencies ******************/
void freqsummary(char fileres[], int agemin, int agemax, int s, double agev, int nlstate, int imx, int Tvar, int nbcode, int ncodemax)	void freqsummary(char fileres[], int agemin, int agemax, int s, double agev, int nlstate, int imx, int Tvar, int nbcode, int ncodemax,double mint,double anint, double dateprev1,double dateprev2)
{ /* Some frequencies */	{ /* Some frequencies */

int i, m, jk, k1, i1, j1, bool, z1,z2,j;	int i, m, jk, k1,i1, j1, bool, z1,z2,j;
double **freq; / Frequencies */	double **freq; / Frequencies */
double *pp;	double *pp;
double pos;	double pos, k2, dateintsum=0,k2cpt=0;
FILE *ficresp;	FILE *ficresp;
char fileresp[FILENAMELENGTH];	char fileresp[FILENAMELENGTH];

pp=vector(1,nlstate);	pp=vector(1,nlstate);
probs= ma3x(1,130 ,1,8, 1,8);	probs= ma3x(1,AGESUP,1,NCOVMAX, 1,NCOVMAX);
strcpy(fileresp,"p");	strcpy(fileresp,"p");
strcat(fileresp,fileres);	strcat(fileresp,fileres);
if((ficresp=fopen(fileresp,"w"))==NULL) {	if((ficresp=fopen(fileresp,"w"))==NULL) {
Line 1183 void freqsummary(char fileres[], int ag	Line 1209 void freqsummary(char fileres[], int ag
for (jk=-1; jk<=nlstate+ndeath; jk++)	for (jk=-1; jk<=nlstate+ndeath; jk++)
for(m=agemin; m <= agemax+3; m++)	for(m=agemin; m <= agemax+3; m++)
freq[i][jk][m]=0;	freq[i][jk][m]=0;

	dateintsum=0;
	k2cpt=0;
for (i=1; i<=imx; i++) {	for (i=1; i<=imx; i++) {
bool=1;	bool=1;
if (cptcovn>0) {	if (cptcovn>0) {
Line 1191 void freqsummary(char fileres[], int ag	Line 1219 void freqsummary(char fileres[], int ag
if (covar[Tvaraff[z1]][i]!= nbcode[Tvaraff[z1]][codtab[j1][z1]])	if (covar[Tvaraff[z1]][i]!= nbcode[Tvaraff[z1]][codtab[j1][z1]])
bool=0;	bool=0;
}	}
if (bool==1) {	if (bool==1) {
for(m=fprev; m<=lprev; m++){	for(m=firstpass; m<=lastpass; m++){
if(agev[m][i]==0) agev[m][i]=agemax+1;	k2=anint[m][i]+(mint[m][i]/12.);
if(agev[m][i]==1) agev[m][i]=agemax+2;	if ((k2>=dateprev1) && (k2<=dateprev2)) {
freq[s[m][i]][s[m+1][i]][(int)agev[m][i]] += weight[i];	if(agev[m][i]==0) agev[m][i]=agemax+1;
freq[s[m][i]][s[m+1][i]][(int) agemax+3] += weight[i];	if(agev[m][i]==1) agev[m][i]=agemax+2;
	freq[s[m][i]][s[m+1][i]][(int)agev[m][i]] += weight[i];
	freq[s[m][i]][s[m+1][i]][(int) agemax+3] += weight[i];
	if ((agev[m][i]>1) && (agev[m][i]< (agemax+3))) {
	dateintsum=dateintsum+k2;
	k2cpt++;
	}

	}
}	}
}	}
}	}
Line 1258 void freqsummary(char fileres[], int ag	Line 1294 void freqsummary(char fileres[], int ag
}	}
}	}
}	}
	dateintmean=dateintsum/k2cpt;

fclose(ficresp);	fclose(ficresp);
free_ma3x(freq,-1,nlstate+ndeath,-1,nlstate+ndeath,(int) agemin,(int) agemax+3);	free_ma3x(freq,-1,nlstate+ndeath,-1,nlstate+ndeath,(int) agemin,(int) agemax+3);
free_vector(pp,1,nlstate);	free_vector(pp,1,nlstate);

	/* End of Freq */
	}

	/********** Prevalence ******************/
	void prevalence(int agemin, int agemax, int s, double agev, int nlstate, int imx, int Tvar, int nbcode, int ncodemax,double mint,double anint, double dateprev1,double dateprev2, double calagedate)
	{ /* Some frequencies */

	int i, m, jk, k1, i1, j1, bool, z1,z2,j;
	double **freq; / Frequencies */
	double *pp;
	double pos, k2;

	pp=vector(1,nlstate);
	probs= ma3x(1,AGESUP,1,NCOVMAX, 1,NCOVMAX);

	freq=ma3x(-1,nlstate+ndeath,-1,nlstate+ndeath,agemin,agemax+3);
	j1=0;

	j=cptcoveff;
	if (cptcovn<1) {j=1;ncodemax[1]=1;}

	for(k1=1; k1<=j;k1++){
	for(i1=1; i1<=ncodemax[k1];i1++){
	j1++;

	for (i=-1; i<=nlstate+ndeath; i++)
	for (jk=-1; jk<=nlstate+ndeath; jk++)
	for(m=agemin; m <= agemax+3; m++)
	freq[i][jk][m]=0;

	for (i=1; i<=imx; i++) {
	bool=1;
	if (cptcovn>0) {
	for (z1=1; z1<=cptcoveff; z1++)
	if (covar[Tvaraff[z1]][i]!= nbcode[Tvaraff[z1]][codtab[j1][z1]])
	bool=0;
	}
	if (bool==1) {
	for(m=firstpass; m<=lastpass; m++){
	k2=anint[m][i]+(mint[m][i]/12.);
	if ((k2>=dateprev1) && (k2<=dateprev2)) {
	if(agev[m][i]==0) agev[m][i]=agemax+1;
	if(agev[m][i]==1) agev[m][i]=agemax+2;
	freq[s[m][i]][s[m+1][i]][(int)(agev[m][i]+1-((int)calagedate %12)/12.)] += weight[i];
	freq[s[m][i]][s[m+1][i]][(int)(agemax+3+1)] += weight[i];
	}
	}
	}
	}

	for(i=(int)agemin; i <= (int)agemax+3; i++){
	for(jk=1; jk <=nlstate ; jk++){
	for(m=-1, pp[jk]=0; m <=nlstate+ndeath ; m++)
	pp[jk] += freq[jk][m][i];
	}
	for(jk=1; jk <=nlstate ; jk++){
	for(m=-1, pos=0; m <=0 ; m++)
	pos += freq[jk][m][i];
	}

	for(jk=1; jk <=nlstate ; jk++){
	for(m=0, pp[jk]=0; m <=nlstate+ndeath; m++)
	pp[jk] += freq[jk][m][i];
	}

	for(jk=1,pos=0; jk <=nlstate ; jk++) pos += pp[jk];

	for(jk=1; jk <=nlstate ; jk++){
	if( i <= (int) agemax){
	if(pos>=1.e-5){
	probs[i][jk][j1]= pp[jk]/pos;
	}
	}
	}

	}
	}
	}


	free_ma3x(freq,-1,nlstate+ndeath,-1,nlstate+ndeath,(int) agemin,(int) agemax+3);
	free_vector(pp,1,nlstate);

} /* End of Freq */	} /* End of Freq */

/*********** Waves Concatenation *************/	/*********** Waves Concatenation *************/
Line 1763 fclose(ficresprob);	Line 1883 fclose(ficresprob);
/************** Main Program ***************/	/************** Main Program ***************/
/***********************************************/	/***********************************************/

/int main(int argc, char argv[])*/	int main(int argc, char *argv[])
int main()
{	{

int i,j, k, n=MAXN,iter,m,size,cptcode, cptcod;	int i,j, k, n=MAXN,iter,m,size,cptcode, cptcod;
Line 1780 int main()	Line 1899 int main()
char line[MAXLINE], linepar[MAXLINE];	char line[MAXLINE], linepar[MAXLINE];
char title[MAXLINE];	char title[MAXLINE];
char optionfile[FILENAMELENGTH], datafile[FILENAMELENGTH], filerespl[FILENAMELENGTH], optionfilehtm[FILENAMELENGTH];	char optionfile[FILENAMELENGTH], datafile[FILENAMELENGTH], filerespl[FILENAMELENGTH], optionfilehtm[FILENAMELENGTH];
	char optionfilext[10], optionfilefiname[FILENAMELENGTH], optionfilegnuplot[FILENAMELENGTH], plotcmd[FILENAMELENGTH];

char fileres[FILENAMELENGTH], filerespij[FILENAMELENGTH], filereso[FILENAMELENGTH], fileresf[FILENAMELENGTH];	char fileres[FILENAMELENGTH], filerespij[FILENAMELENGTH], filereso[FILENAMELENGTH], fileresf[FILENAMELENGTH];

char filerest[FILENAMELENGTH];	char filerest[FILENAMELENGTH];
char fileregp[FILENAMELENGTH];	char fileregp[FILENAMELENGTH];
	char popfile[FILENAMELENGTH];
char path[80],pathc[80],pathcd[80],pathtot[80],model[20];	char path[80],pathc[80],pathcd[80],pathtot[80],model[20];
int firstobs=1, lastobs=10;	int firstobs=1, lastobs=10;
int sdeb, sfin; /* Status at beginning and end */	int sdeb, sfin; /* Status at beginning and end */
Line 1790 int main()	Line 1913 int main()
int ju,jl, mi;	int ju,jl, mi;
int i1,j1, k1,k2,k3,jk,aa,bb, stepsize, ij;	int i1,j1, k1,k2,k3,jk,aa,bb, stepsize, ij;
int jnais,jdc,jint4,jint1,jint2,jint3,outcome,adl,*tab;	int jnais,jdc,jint4,jint1,jint2,jint3,outcome,adl,*tab;
int mobilav=0, fprevfore=1, lprevfore=1;	int mobilav=0,popforecast=0;
int hstepm, nhstepm;	int hstepm, nhstepm;
	int popage;/boolprev=0 if date and zero if wave*/
	double jprev1, mprev1,anprev1,jprev2, mprev2,anprev2;

double bage, fage, age, agelim, agebase;	double bage, fage, age, agelim, agebase;
double ftolpl=FTOL;	double ftolpl=FTOL;
Line 1805 int main()	Line 1930 int main()
double *eij, *vareij;	double *eij, *vareij;
double *varpl; / Variances of prevalence limits by age */	double *varpl; / Variances of prevalence limits by age */
double *epj, vepp;	double *epj, vepp;
double kk1;	double kk1, kk2;
	double popeffectif,popcount;
	double dateprev1, dateprev2,jproj1,mproj1,anproj1,jproj2,mproj2,anproj2,jprojmean,mprojmean,anprojmean, calagedate;
	double yp,yp1,yp2;

char version[80]="Imach version 64b, May 2001, INED-EUROREVES ";	char version[80]="Imach version 0.7, February 2002, INED-EUROREVES ";
char *alph[]={"a","a","b","c","d","e"}, str[4];	char *alph[]={"a","a","b","c","d","e"}, str[4];


Line 1815 int main()	Line 1943 int main()
#include <sys/time.h>	#include <sys/time.h>
#include <time.h>	#include <time.h>
char stra[80], strb[80], strc[80], strd[80],stre[80],modelsav[80];	char stra[80], strb[80], strc[80], strd[80],stre[80],modelsav[80];

/* long total_usecs;	/* long total_usecs;
struct timeval start_time, end_time;	struct timeval start_time, end_time;

gettimeofday(&start_time, (struct timezone)0); / /* at first time */	gettimeofday(&start_time, (struct timezone)0); / /* at first time */


printf("\nIMACH, Version 0.64b");	printf("\n%s",version);
printf("\nEnter the parameter file name: ");	if(argc <=1){
	printf("\nEnter the parameter file name: ");
#ifdef windows	scanf("%s",pathtot);
scanf("%s",pathtot);	}
getcwd(pathcd, size);	else{
	strcpy(pathtot,argv[1]);
	}
	/if(getcwd(pathcd, 80)!= NULL)printf ("Error pathcd\n");/
/*cygwin_split_path(pathtot,path,optionfile);	/*cygwin_split_path(pathtot,path,optionfile);
printf("pathtot=%s, path=%s, optionfile=%s\n",pathtot,path,optionfile);*/	printf("pathtot=%s, path=%s, optionfile=%s\n",pathtot,path,optionfile);*/
/* cutv(path,optionfile,pathtot,'\\');*/	/* cutv(path,optionfile,pathtot,'\\');*/

split(pathtot, path,optionfile);	split(pathtot,path,optionfile,optionfilext,optionfilefiname);
	printf("pathtot=%s, path=%s, optionfile=%s optionfilext=%s optionfilefiname=%s\n",pathtot,path,optionfile,optionfilext,optionfilefiname);
chdir(path);	chdir(path);
replace(pathc,path);	replace(pathc,path);
#endif
#ifdef unix
scanf("%s",optionfile);
#endif

/-------- arguments in the command line --------/	/-------- arguments in the command line --------/

strcpy(fileres,"r");	strcpy(fileres,"r");
strcat(fileres, optionfile);	strcat(fileres, optionfilefiname);
	strcat(fileres,".txt"); /* Other files have txt extension */

/---------arguments file --------/	/---------arguments file --------/

Line 1877 while((c=getc(ficpar))=='#' && c!= EOF){	Line 2007 while((c=getc(ficpar))=='#' && c!= EOF){
}	}
ungetc(c,ficpar);	ungetc(c,ficpar);

fscanf(ficpar,"fprevalence=%d lprevalence=%d pop_based=%d\n",&fprev,&lprev,&popbased);
while((c=getc(ficpar))=='#' && c!= EOF){
ungetc(c,ficpar);
fgets(line, MAXLINE, ficpar);
puts(line);
fputs(line,ficparo);
}
ungetc(c,ficpar);

fscanf(ficpar,"fprevalence=%d lprevalence=%d mob_average=%d\n",&fprevfore,&lprevfore,&mobilav);

covar=matrix(0,NCOVMAX,1,n);	covar=matrix(0,NCOVMAX,1,n);
cptcovn=0;	cptcovn=0;
if (strlen(model)>1) cptcovn=nbocc(model,'+')+1;	if (strlen(model)>1) cptcovn=nbocc(model,'+')+1;
Line 2050 while((c=getc(ficpar))=='#' && c!= EOF){	Line 2170 while((c=getc(ficpar))=='#' && c!= EOF){
if ((s[2][i]==3) && (s[3][i]==2)) s[3][i]=3;	if ((s[2][i]==3) && (s[3][i]==2)) s[3][i]=3;
if ((s[3][i]==3) && (s[4][i]==2)) s[4][i]=3;	if ((s[3][i]==3) && (s[4][i]==2)) s[4][i]=3;
}	}
for (i=1; i<=imx; i++) printf("%d %.lf %.lf %.lf %.lf/%.lf %.lf/%.lf %.lf/%.lf %d %.lf/%.lf %d %.lf/%.lf %d %.lf/%.lf %d\n",num[i],(covar[1][i]), (covar[2][i]), (weight[i]), (moisnais[i]), (annais[i]), (moisdc[i]), (andc[i]), (mint[1][i]), (anint[1][i]), (s[1][i]), (mint[2][i]), (anint[2][i]), (s[2][i]), (mint[3][i]), (anint[3][i]), (s[3][i]), (mint[4][i]), (anint[4][i]), (s[4][i]));*/
	for (i=1; i<=imx; i++)
	if (covar[1][i]==0) printf("%d %.lf %.lf %.lf %.lf/%.lf %.lf/%.lf %.lf/%.lf %d %.lf/%.lf %d %.lf/%.lf %d %.lf/%.lf %d\n",num[i],(covar[1][i]), (covar[2][i]), (weight[i]), (moisnais[i]), (annais[i]), (moisdc[i]), (andc[i]), (mint[1][i]), (anint[1][i]), (s[1][i]), (mint[2][i]), (anint[2][i]), (s[2][i]), (mint[3][i]), (anint[3][i]), (s[3][i]), (mint[4][i]), (anint[4][i]), (s[4][i]));*/

/* Calculation of the number of parameter from char model*/	/* Calculation of the number of parameter from char model*/
Tvar=ivector(1,15);	Tvar=ivector(1,15);
Line 2196 printf("Total number of individuals= %d,	Line 2318 printf("Total number of individuals= %d,
free_imatrix(outcome,1,maxwav+1,1,n);	free_imatrix(outcome,1,maxwav+1,1,n);
free_vector(moisnais,1,n);	free_vector(moisnais,1,n);
free_vector(annais,1,n);	free_vector(annais,1,n);
free_matrix(mint,1,maxwav,1,n);	/* free_matrix(mint,1,maxwav,1,n);
free_matrix(anint,1,maxwav,1,n);	free_matrix(anint,1,maxwav,1,n);*/
free_vector(moisdc,1,n);	free_vector(moisdc,1,n);
free_vector(andc,1,n);	free_vector(andc,1,n);

Line 2241 printf("Total number of individuals= %d,	Line 2363 printf("Total number of individuals= %d,

/* Calculates basic frequencies. Computes observed prevalence at single age	/* Calculates basic frequencies. Computes observed prevalence at single age
and prints on file fileres'p'. */	and prints on file fileres'p'. */
freqsummary(fileres, agemin, agemax, s, agev, nlstate, imx,Tvar,nbcode, ncodemax);



pmmij= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */	pmmij= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */
oldms= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */	oldms= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */
newms= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */	newms= matrix(1,nlstate+ndeath,1,nlstate+ndeath); /* creation */
Line 2258 printf("Total number of individuals= %d,	Line 2381 printf("Total number of individuals= %d,
}	}

/--------- results files --------------/	/--------- results files --------------/
fprintf(ficres,"\ntitle=%s datafile=%s lastobs=%d firstpass=%d lastpass=%d\nftol=%e stepm=%d ncov=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\nmodel=%s\n", title, datafile, lastobs, firstpass,lastpass,ftol, stepm, ncov, nlstate, ndeath, maxwav, mle,weightopt,model);	fprintf(ficres,"title=%s datafile=%s lastobs=%d firstpass=%d lastpass=%d\nftol=%e stepm=%d ncov=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\nmodel=%s\n", title, datafile, lastobs, firstpass,lastpass,ftol, stepm, ncov, nlstate, ndeath, maxwav, mle,weightopt,model);


jk=1;	jk=1;
fprintf(ficres,"# Parameters\n");	fprintf(ficres,"# Parameters\n");
printf("# Parameters\n");	printf("# Parameters\n");
Line 2300 printf("Total number of individuals= %d,	Line 2424 printf("Total number of individuals= %d,
fprintf(ficres,"\n");	fprintf(ficres,"\n");
}	}
}	}
}	}

k=1;	k=1;
fprintf(ficres,"# Covariance\n");	fprintf(ficres,"# Covariance\n");
Line 2335 printf("Total number of individuals= %d,	Line 2459 printf("Total number of individuals= %d,
bage = agemin;	bage = agemin;
fage = agemax;	fage = agemax;
}	}

fprintf(ficres,"# agemin agemax for life expectancy, bage fage (if mle==0 ie no data nor Max likelihood).\n");	fprintf(ficres,"# agemin agemax for life expectancy, bage fage (if mle==0 ie no data nor Max likelihood).\n");
fprintf(ficres,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f\n",agemin,agemax,bage,fage);	fprintf(ficres,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f\n",agemin,agemax,bage,fage);
	fprintf(ficparo,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f\n",agemin,agemax,bage,fage);

	while((c=getc(ficpar))=='#' && c!= EOF){
	ungetc(c,ficpar);
	fgets(line, MAXLINE, ficpar);
	puts(line);
	fputs(line,ficparo);
	}
	ungetc(c,ficpar);

	fscanf(ficpar,"begin-prev-date=%lf/%lf/%lf end-prev-date=%lf/%lf/%lf mob_average=%d\n",&jprev1, &mprev1,&anprev1,&jprev2, &mprev2,&anprev2,&mobilav);
	fprintf(ficparo,"begin-prev-date=%.lf/%.lf/%.lf end-prev-date=%.lf/%.lf/%.lf mob_average=%d\n",jprev1, mprev1,anprev1,jprev2, mprev2,anprev2,mobilav);
	fprintf(ficres,"begin-prev-date=%.lf/%.lf/%.lf end-prev-date=%.lf/%.lf/%.lf mob_average=%d\n",jprev1, mprev1,anprev1,jprev2, mprev2,anprev2,mobilav);

	while((c=getc(ficpar))=='#' && c!= EOF){
	ungetc(c,ficpar);
	fgets(line, MAXLINE, ficpar);
	puts(line);
	fputs(line,ficparo);
	}
	ungetc(c,ficpar);


	dateprev1=anprev1+mprev1/12.+jprev1/365.;
/------------ gnuplot -------------/	dateprev2=anprev2+mprev2/12.+jprev2/365.;
chdir(pathcd);
if((ficgp=fopen("graph.plt","w"))==NULL) {	fscanf(ficpar,"pop_based=%d\n",&popbased);
printf("Problem with file graph.gp");goto end;	fprintf(ficparo,"pop_based=%d\n",popbased);
	fprintf(ficres,"pop_based=%d\n",popbased);

	while((c=getc(ficpar))=='#' && c!= EOF){
	ungetc(c,ficpar);
	fgets(line, MAXLINE, ficpar);
	puts(line);
	fputs(line,ficparo);
}	}
	ungetc(c,ficpar);
	fscanf(ficpar,"popforecast=%d popfile=%s starting-proj-date=%lf/%lf/%lf final-proj-date=%lf/%lf/%lf\n",&popforecast,popfile,&jproj1,&mproj1,&anproj1,&jproj2,&mproj2,&anproj2);
	fprintf(ficparo,"popforecast=%d popfile=%s starting-proj-date=%.lf/%.lf/%.lf final-proj-date=%.lf/%.lf/%.lf\n",popforecast,popfile,jproj1,mproj1,anproj1,jproj2,mproj2,anproj2);
	fprintf(ficres,"popforecast=%d popfile=%s starting-proj-date=%.lf/%.lf/%.lf final-proj-date=%.lf/%.lf/%.lf\n",popforecast,popfile,jproj1,mproj1,anproj1,jproj2,mproj2,anproj2);

	freqsummary(fileres, agemin, agemax, s, agev, nlstate, imx,Tvar,nbcode, ncodemax,mint,anint,dateprev1,dateprev2);


	/------------ gnuplot -------------/
	/chdir(pathcd);/
	strcpy(optionfilegnuplot,optionfilefiname);
	strcat(optionfilegnuplot,".plt");
	if((ficgp=fopen(optionfilegnuplot,"w"))==NULL) {
	printf("Problem with file %s",optionfilegnuplot);goto end;
	}
#ifdef windows	#ifdef windows
fprintf(ficgp,"cd \"%s\" \n",pathc);	fprintf(ficgp,"cd \"%s\" \n",pathc);
#endif	#endif
m=pow(2,cptcoveff);	m=pow(2,cptcoveff);

Line 2503 ij=1;	Line 2671 ij=1;
}	}

fclose(ficgp);	fclose(ficgp);
	/* end gnuplot */

chdir(path);	chdir(path);
free_matrix(agev,1,maxwav,1,imx);
free_ivector(wav,1,imx);	free_ivector(wav,1,imx);
free_imatrix(dh,1,lastpass-firstpass+1,1,imx);	free_imatrix(dh,1,lastpass-firstpass+1,1,imx);
free_imatrix(mw,1,lastpass-firstpass+1,1,imx);	free_imatrix(mw,1,lastpass-firstpass+1,1,imx);

free_imatrix(s,1,maxwav+1,1,n);


free_ivector(num,1,n);	free_ivector(num,1,n);
free_vector(agedc,1,n);	free_vector(agedc,1,n);
free_vector(weight,1,n);
/free_matrix(covar,1,NCOVMAX,1,n);/	/free_matrix(covar,1,NCOVMAX,1,n);/
fclose(ficparo);	fclose(ficparo);
fclose(ficres);	fclose(ficres);
Line 2546 chdir(path);	Line 2710 chdir(path);
printf("Problem with %s \n",optionfilehtm);goto end;	printf("Problem with %s \n",optionfilehtm);goto end;
}	}

fprintf(fichtm,"<body><ul> <font size=\"6\">Imach, Version 0.64b </font> <hr size=\"2\" color=\"#EC5E5E\">	fprintf(fichtm,"<body><ul> <font size=\"6\">Imach, Version 0.7 </font> <hr size=\"2\" color=\"#EC5E5E\">
Titre=%s <br>Datafile=%s Firstpass=%d Lastpass=%d Stepm=%d Weight=%d Model=%s<br>	Titre=%s <br>Datafile=%s Firstpass=%d Lastpass=%d Stepm=%d Weight=%d Model=%s<br>
Total number of observations=%d <br>	Total number of observations=%d <br>
Interval (in months) between two waves: Min=%d Max=%d Mean=%.2lf<br>	Interval (in months) between two waves: Min=%d Max=%d Mean=%.2lf<br>
Line 2561 Interval (in months) between two waves:	Line 2725 Interval (in months) between two waves:
- Variances of life expectancies by age and initial health status: <a href=\"v%s\">v%s</a><br>	- Variances of life expectancies by age and initial health status: <a href=\"v%s\">v%s</a><br>
- Health expectancies with their variances: <a href=\"t%s\">t%s</a> <br>	- Health expectancies with their variances: <a href=\"t%s\">t%s</a> <br>
- Standard deviation of stationary prevalences: <a href=\"vpl%s\">vpl%s</a> <br>	- Standard deviation of stationary prevalences: <a href=\"vpl%s\">vpl%s</a> <br>
- Prevalences forecasting: <a href=\"f%s\">f%s</a> <br>	- Prevalences and population forecasting: <a href=\"f%s\">f%s</a> <br>
<br>",title,datafile,firstpass,lastpass,stepm, weightopt,model,imx,jmin,jmax,jmean,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres);	<br>",title,datafile,firstpass,lastpass,stepm, weightopt,model,imx,jmin,jmax,jmean,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres,fileres);

fprintf(fichtm," <li>Graphs</li><p>");	fprintf(fichtm," <li>Graphs</li><p>");
Line 2700 fclose(fichtm);	Line 2864 fclose(fichtm);

fclose(ficrespij);	fclose(ficrespij);

	if(stepm == 1) {
/---------- Forecasting ------------------/	/---------- Forecasting ------------------/
	calagedate=(anproj1+mproj1/12.+jproj1/365.-dateintmean)*YEARM;

	/printf("calage= %f", calagedate);/

	prevalence(agemin, agemax, s, agev, nlstate, imx,Tvar,nbcode, ncodemax,mint,anint,dateprev1,dateprev2, calagedate);


strcpy(fileresf,"f");	strcpy(fileresf,"f");
strcat(fileresf,fileres);	strcat(fileresf,fileres);
Line 2709 fclose(fichtm);	Line 2880 fclose(fichtm);
}	}
printf("Computing forecasting: result on file '%s' \n", fileresf);	printf("Computing forecasting: result on file '%s' \n", fileresf);

	free_matrix(mint,1,maxwav,1,n);
	free_matrix(anint,1,maxwav,1,n);
	free_matrix(agev,1,maxwav,1,imx);
/* Mobile average */	/* Mobile average */

/* for (agedeb=bage; agedeb<=fage; agedeb++)
for (i=1; i<=nlstate;i++)
for (cptcod=1;cptcod<=ncodemax[cptcoveff];cptcod++)
printf("%f %d i=%d j1=%d\n", probs[(int)agedeb][i][cptcod],(int) agedeb,i,cptcod);*/

if (cptcoveff==0) ncodemax[cptcoveff]=1;	if (cptcoveff==0) ncodemax[cptcoveff]=1;

if (mobilav==1) {	if (mobilav==1) {
Line 2738 fclose(fichtm);	Line 2907 fclose(fichtm);
}	}

stepsize=(int) (stepm+YEARM-1)/YEARM;	stepsize=(int) (stepm+YEARM-1)/YEARM;
if (stepm<=24) stepsize=2;	if (stepm<=12) stepsize=1;

agelim=AGESUP;	agelim=AGESUP;
hstepm=stepsizeYEARM; / Every year of age */	/hstepm=stepsizeYEARM; // Every year of age */
hstepm=hstepm/stepm; /* Typically 2 years, = 2/6 months = 4 */	hstepm=1;
hstepm=12;	hstepm=hstepm/stepm; /* Typically 2 years, = 2 years/6 months = 4 */
k=0;	yp1=modf(dateintmean,&yp);
	anprojmean=yp;
	yp2=modf((yp1*12),&yp);
	mprojmean=yp;
	yp1=modf((yp2*30.5),&yp);
	jprojmean=yp;
	if(jprojmean==0) jprojmean=1;
	if(mprojmean==0) jprojmean=1;

	fprintf(ficresf,"# Estimated date of observed prevalence: %.lf/%.lf/%.lf ",jprojmean,mprojmean,anprojmean);

	if (popforecast==1) {
	if((ficpop=fopen(popfile,"r"))==NULL) {
	printf("Problem with population file : %s\n",popfile);goto end;
	}
	popage=ivector(0,AGESUP);
	popeffectif=vector(0,AGESUP);
	popcount=vector(0,AGESUP);

	i=1;
	while ((c=fscanf(ficpop,"%d %lf\n",&popage[i],&popcount[i])) != EOF)
	{
	i=i+1;
	}
	imx=i;

	for (i=1; i<imx;i++) popeffectif[popage[i]]=popcount[i];
	}

for(cptcov=1;cptcov<=i1;cptcov++){	for(cptcov=1;cptcov<=i1;cptcov++){
for(cptcod=1;cptcod<=ncodemax[cptcoveff];cptcod++){	for(cptcod=1;cptcod<=ncodemax[cptcoveff];cptcod++){
k=k+1;	k=k+1;
fprintf(ficresf,"\n#****** ");	fprintf(ficresf,"\n#******");
for(j=1;j<=cptcoveff;j++) {	for(j=1;j<=cptcoveff;j++) {
fprintf(ficresf,"V%d=%d ",Tvaraff[j],nbcode[Tvaraff[j]][codtab[k][j]]);	fprintf(ficresf," V%d=%d ",Tvaraff[j],nbcode[Tvaraff[j]][codtab[k][j]]);
}	}

fprintf(ficresf,"******\n");	fprintf(ficresf,"******\n");
	fprintf(ficresf,"# StartingAge FinalAge");
fprintf(ficresf,"# StartingAge FinalAge Horizon(in years)");
for(j=1; j<=nlstate+ndeath;j++) fprintf(ficresf," P.%d",j);	for(j=1; j<=nlstate+ndeath;j++) fprintf(ficresf," P.%d",j);
	if (popforecast==1) fprintf(ficresf," [Population]");
for (agedeb=fage; agedeb>=bage; agedeb--){
fprintf(ficresf,"\n%d %.f %.f 0 ",k,agedeb, agedeb);	for (cpt=0; cpt<4;cpt++) {
if (mobilav==1) {	fprintf(ficresf,"\n");
for(j=1; j<=nlstate;j++)	fprintf(ficresf,"\n# Forecasting at date %.lf/%.lf/%.lf ",jproj1,mproj1,anproj1+cpt);
fprintf(ficresf,"%.5f ",mobaverage[(int)agedeb][j][cptcod]);
}	for (agedeb=(fage-((int)calagedate %12/12.)); agedeb>=(bage-((int)calagedate %12)/12.); agedeb--){ /* If stepm=6 months */
else {	nhstepm=(int) rint((agelim-agedeb)*YEARM/stepm);
for(j=1; j<=nlstate;j++)	nhstepm = nhstepm/hstepm;
fprintf(ficresf,"%.5f ",probs[(int)agedeb][j][cptcod]);	/printf("agedeb=%.lf stepm=%d hstepm=%d nhstepm=%d \n",agedeb,stepm,hstepm,nhstepm);/
}

for(j=1; j<=ndeath;j++) fprintf(ficresf,"0.");
}
for (cpt=1; cpt<=NCOVMAX;cpt++)
for (agedeb=fage; agedeb>=bage; agedeb--){ /* If stepm=6 months */

nhstepm=(int) rint((agelim-agedeb)YEARM/stepm); / Typically 20 years = 2012/6=40 /
nhstepm = nhstepm/hstepm; /* Typically 40/4=10 */
/printf("stepm=%d hstepm=%d nhstepm=%d \n",stepm,hstepm,nhstepm);/

p3mat=ma3x(1,nlstate+ndeath,1, nlstate+ndeath, 0,nhstepm);	p3mat=ma3x(1,nlstate+ndeath,1, nlstate+ndeath, 0,nhstepm);
oldm=oldms;savm=savms;	oldm=oldms;savm=savms;
hpxij(p3mat,nhstepm,agedeb,hstepm,p,nlstate,stepm,oldm,savm, k);	hpxij(p3mat,nhstepm,agedeb,hstepm,p,nlstate,stepm,oldm,savm, k);

for (h=0; h<=nhstepm; h++){

if (hhstepm/YEARMstepm==cpt)	for (h=0; h<=nhstepm; h++){
fprintf(ficresf,"\n%d %.f %.f %.f",k,agedeb, agedeb+ hhstepm/YEARMstepm, hhstepm/YEARMstepm);	if (h==(int) (calagedate+YEARM*cpt)) {
	fprintf(ficresf,"\n %.f ",agedeb+hhstepm/YEARMstepm);
	}
for(j=1; j<=nlstate+ndeath;j++) {	for(j=1; j<=nlstate+ndeath;j++) {
kk1=0.;	kk1=0.;kk2=0;
for(i=1; i<=nlstate;i++) {	for(i=1; i<=nlstate;i++) {
if (mobilav==1)	if (mobilav==1)
kk1=kk1+p3mat[i][j][h]*mobaverage[(int)agedeb][i][cptcod];	kk1=kk1+p3mat[i][j][h]*mobaverage[(int)agedeb+1][i][cptcod];
else kk1=kk1+p3mat[i][j][h]*probs[(int)agedeb][i][cptcod];	else {
}	kk1=kk1+p3mat[i][j][h]*probs[(int)(agedeb+1)][i][cptcod];
if (hhstepm/YEARMstepm==cpt) fprintf(ficresf," %.5f ", kk1);	/* fprintf(ficresf," p3=%.3f p=%.3f ", p3mat[i][j][h], probs[(int)(agedeb)+1][i][cptcod]);*/
	}

	if (popforecast==1) kk2=kk1*popeffectif[(int)agedeb];
	}

	if (h==(int)(calagedate+12*cpt)){
	fprintf(ficresf," %.3f", kk1);

	if (popforecast==1) fprintf(ficresf," [%.f]", kk2);
	}
}	}
}	}
free_ma3x(p3mat,1,nlstate+ndeath,1, nlstate+ndeath, 0,nhstepm);	/* free_ma3x(p3mat,1,nlstate+ndeath,1, nlstate+ndeath, 0,nhstepm);*/
	}
}	}
}	}
}	}
if (mobilav==1) free_ma3x(mobaverage,1, AGESUP,1,NCOVMAX, 1,NCOVMAX);	/* if (mobilav==1) free_ma3x(mobaverage,1, AGESUP,1,NCOVMAX, 1,NCOVMAX);
	if (popforecast==1) {
	free_ivector(popage,0,AGESUP);
	free_vector(popeffectif,0,AGESUP);
	free_vector(popcount,0,AGESUP);
	}
	free_imatrix(s,1,maxwav+1,1,n);
	free_vector(weight,1,n);*/
fclose(ficresf);	fclose(ficresf);
	}/* End forecasting */
	else{
	erreur=108;
	printf("Error %d!! You can only forecast the prevalences if the optimization\n has been performed with stepm = 1 (month) instead of %d\n", erreur, stepm);
	}

/---------- Health expectancies and variances ------------/	/---------- Health expectancies and variances ------------/

strcpy(filerest,"t");	strcpy(filerest,"t");
Line 2940 strcpy(fileresvpl,"vpl");	Line 3148 strcpy(fileresvpl,"vpl");

free_ma3x(param,1,nlstate,1, nlstate+ndeath-1,1,ncovmodel);	free_ma3x(param,1,nlstate,1, nlstate+ndeath-1,1,ncovmodel);

printf("End of Imach\n");	if(erreur >0)
	printf("End of Imach with error %d\n",erreur);
	else printf("End of Imach\n");
/* gettimeofday(&end_time, (struct timezone)0);/ /* after time */	/* gettimeofday(&end_time, (struct timezone)0);/ /* after time */

/* printf("Total time was %d Sec. %d uSec.\n", end_time.tv_sec -start_time.tv_sec, end_time.tv_usec -start_time.tv_usec);*/	/* printf("Total time was %d Sec. %d uSec.\n", end_time.tv_sec -start_time.tv_sec, end_time.tv_usec -start_time.tv_usec);*/
Line 2950 strcpy(fileresvpl,"vpl");	Line 3160 strcpy(fileresvpl,"vpl");

end:	end:
#ifdef windows	#ifdef windows
chdir(pathcd);	/* chdir(pathcd);*/
#endif	#endif
	/system("wgnuplot graph.plt");/
system("..\\gp37mgw\\wgnuplot graph.plt");	/system("../gp37mgw/wgnuplot graph.plt");/
	/system("cd ../gp37mgw");/
	/* system("..\\gp37mgw\\wgnuplot graph.plt");*/
	strcpy(plotcmd,GNUPLOTPROGRAM);
	strcat(plotcmd," ");
	strcat(plotcmd,optionfilegnuplot);
	system(plotcmd);

#ifdef windows	#ifdef windows
while (z[0] != 'q') {	while (z[0] != 'q') {
chdir(pathcd);	chdir(path);
printf("\nType e to edit output files, c to start again, and q for exiting: ");	printf("\nType e to edit output files, c to start again, and q for exiting: ");
scanf("%s",z);	scanf("%s",z);
if (z[0] == 'c') system("./imach");	if (z[0] == 'c') system("./imach");

FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>

Removed from v.1.14
changed lines
	Added in v.1.23