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Diff for /imach/src/imach.c between versions 1.208 and 1.213

version 1.208, 2015/11/17 14:31:57	version 1.213, 2015/12/11 18:22:17
Line 1	Line 1
/* $Id$	/* $Id$
$State$	$State$
$Log$	$Log$
	Revision 1.213 2015/12/11 18:22:17 brouard
	Summary: 0.98r4

	Revision 1.212 2015/11/21 12:47:24 brouard
	Summary: minor typo

	Revision 1.211 2015/11/21 12:41:11 brouard
	Summary: 0.98r3 with some graph of projected cross-sectional

	Author: Nicolas Brouard

	Revision 1.210 2015/11/18 17:41:20 brouard
	Summary: Start working on projected prevalences

	Revision 1.209 2015/11/17 22:12:03 brouard
	Summary: Adding ftolpl parameter
	Author: N Brouard

	We had difficulties to get smoothed confidence intervals. It was due
	to the period prevalence which wasn't computed accurately. The inner
	parameter ftolpl is now an outer parameter of the .imach parameter
	file after estepm. If ftolpl is small 1.e-4 and estepm too,
	computation are long.

Revision 1.208 2015/11/17 14:31:57 brouard	Revision 1.208 2015/11/17 14:31:57 brouard
Summary: temporary	Summary: temporary

Line 744 typedef struct {	Line 768 typedef struct {
#define NDEATHMAX 8 /*< Maximum number of dead states (for func) /	#define NDEATHMAX 8 /*< Maximum number of dead states (for func) /
#define NCOVMAX 20 /*< Maximum number of covariates, including generated covariates V1V2 */	#define NCOVMAX 20 /*< Maximum number of covariates, including generated covariates V1V2 */
#define codtabm(h,k) (1 & (h-1) >> (k-1))+1	#define codtabm(h,k) (1 & (h-1) >> (k-1))+1
	/#define decodtabm(h,k,cptcoveff)= (h <= (1<<cptcoveff)?(((h-1) >> (k-1)) & 1) +1 : -1)/
	#define decodtabm(h,k,cptcoveff) (((h-1) >> (k-1)) & 1) +1
#define MAXN 20000	#define MAXN 20000
#define YEARM 12. /*< Number of months per year /	#define YEARM 12. /*< Number of months per year /
#define AGESUP 130	#define AGESUP 130
Line 801 double *matprod2(); / test */	Line 827 double *matprod2(); / test */
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 ; / / Used in readdata only */	/FILE fic ; / / Used in readdata only */
FILE ficpar, ficparo,ficres, ficresp, ficrespl, ficrespij, ficrest,ficresf,*ficrespop;	FILE ficpar, ficparo,ficres, ficresp, ficresphtm, ficrespl, ficrespij, ficrest,ficresf,ficrespop;
FILE ficlog, ficrespow;	FILE ficlog, ficrespow;
int globpr=0; /* Global variable for printing or not */	int globpr=0; /* Global variable for printing or not */
double fretone; /* Only one call to likelihood */	double fretone; /* Only one call to likelihood */
Line 1363 char subdirf3(char fileres[], char pre	Line 1389 char subdirf3(char fileres[], char pre
strcat(tmpout,fileres);	strcat(tmpout,fileres);
return tmpout;	return tmpout;
}	}

	/************* function subdirfext *********/
	char subdirfext(char fileres[], char preop, char *postop)
	{

	strcpy(tmpout,preop);
	strcat(tmpout,fileres);
	strcat(tmpout,postop);
	return tmpout;
	}

	/************* function subdirfext3 *********/
	char subdirfext3(char fileres[], char preop, char *postop)
	{

	/* Caution optionfilefiname is hidden */
	strcpy(tmpout,optionfilefiname);
	strcat(tmpout,"/");
	strcat(tmpout,preop);
	strcat(tmpout,fileres);
	strcat(tmpout,postop);
	return tmpout;
	}

char *asc_diff_time(long time_sec, char ascdiff[])	char *asc_diff_time(long time_sec, char ascdiff[])
{	{
long sec_left, days, hours, minutes;	long sec_left, days, hours, minutes;
Line 1988 double prevalim(double prlim, int nl	Line 2037 double prevalim(double prlim, int nl
/* If we start from prlim again, prlim tends to a constant matrix */	/* If we start from prlim again, prlim tends to a constant matrix */

int i, ii,j,k;	int i, ii,j,k;
double min, max, maxmin, maxmax,sumnew=0.;	double min, max, *meandiff, maxmax,sumnew=0.;
/* double *matprod2(); / /* test */	/* double *matprod2(); / /* test */
double out, cov[NCOVMAX+1], pmij();	double out, cov[NCOVMAX+1], pmij();
double **newm;	double **newm;
double agefin, delaymax=100. ; /* 100 Max number of years to converge */	double agefin, delaymax=200. ; /* 100 Max number of years to converge */
int ncvloop=0;	int ncvloop=0;

	min=vector(1,nlstate);
	max=vector(1,nlstate);
	meandiff=vector(1,nlstate);

for (ii=1;ii<=nlstate+ndeath;ii++)	for (ii=1;ii<=nlstate+ndeath;ii++)
for (j=1;j<=nlstate+ndeath;j++){	for (j=1;j<=nlstate+ndeath;j++){
oldm[ii][j]=(ii==j ? 1.0 : 0.0);	oldm[ii][j]=(ii==j ? 1.0 : 0.0);
Line 2032 double prevalim(double prlim, int nl	Line 2085 double prevalim(double prlim, int nl

savm=oldm;	savm=oldm;
oldm=newm;	oldm=newm;
maxmax=0.;
for(j=1;j<=nlstate;j++){	for(j=1; j<=nlstate; j++){
min=1.;	max[j]=0.;
max=0.;	min[j]=1.;
for(i=1; i<=nlstate; i++) {	}
sumnew=0;	for(i=1;i<=nlstate;i++){
for(k=1; k<=ndeath; k++) sumnew+=newm[i][nlstate+k];	sumnew=0;
	for(k=1; k<=ndeath; k++) sumnew+=newm[i][nlstate+k];
	for(j=1; j<=nlstate; j++){
prlim[i][j]= newm[i][j]/(1-sumnew);	prlim[i][j]= newm[i][j]/(1-sumnew);
max=FMAX(max,prlim[i][j]);	max[j]=FMAX(max[j],prlim[i][j]);
min=FMIN(min,prlim[i][j]);	min[j]=FMIN(min[j],prlim[i][j]);
/* printf(" age= %d prevalim i=%d, j=%d, prmlim[%d][%d]=%f, agefin=%d max=%f min=%f\n", (int)age, i, j, i, j, prlim[i][j],(int)agefin, max, min); */	}
}	}
maxmin=(max-min)/(max+min)*2;
maxmax=FMAX(maxmax,maxmin);	maxmax=0.;
/* for(i=1; i<=nlstate; i++) { */	for(j=1; j<=nlstate; j++){
/* sumnew=0.; */	meandiff[j]=(max[j]-min[j])/(max[j]+min[j])2.; / mean difference for each column */
/* sumnew+=prlim[i][j]; */	maxmax=FMAX(maxmax,meandiff[j]);
/* } */	/* printf(" age= %d meandiff[%d]=%f, agefin=%d max[%d]=%f min[%d]=%f maxmax=%f\n", (int)age, j, meandiff[j],(int)agefin, j, max[j], j, min[j],maxmax); */
/* prmimj = sumnew/(float)nlstate; /\* Means of various prevalence limits. */
} /* j loop */	} /* j loop */
*ncvyear= (int)age- (int)agefin;	*ncvyear= (int)age- (int)agefin;
/* printf("maxmax=%lf maxmin=%lf ncvloop=%d, age=%d, agefin=%d ncvyear=%d \n", maxmax, maxmin, ncvloop, (int)age, (int)agefin, ncvyear); /	/* printf("maxmax=%lf maxmin=%lf ncvloop=%d, age=%d, agefin=%d ncvyear=%d \n", maxmax, maxmin, ncvloop, (int)age, (int)agefin, ncvyear); /
if(maxmax < ftolpl){	if(maxmax < ftolpl){
/* printf("maxmax=%lf maxmin=%lf ncvloop=%ld, age=%d, agefin=%d ncvyear=%d \n", maxmax, maxmin, ncvloop, (int)age, (int)agefin, ncvyear); /	/* printf("maxmax=%lf ncvloop=%ld, age=%d, agefin=%d ncvyear=%d \n", maxmax, ncvloop, (int)age, (int)agefin, ncvyear); /
	free_vector(min,1,nlstate);
	free_vector(max,1,nlstate);
	free_vector(meandiff,1,nlstate);
return prlim;	return prlim;
}	}
} /* age loop */	} /* age loop */
/* After some age loop it doesn't converge */	/* After some age loop it doesn't converge */
printf("Warning: the stable prevalence at age %d did not converge with the required precision %g > ftolpl=%g within %.0f years. \n\	printf("Warning: the stable prevalence at age %d did not converge with the required precision (%g > ftolpl=%g) within %.0f years. Try to lower 'ftolpl'. \n\
Earliest age to start was %d-%d=%d, ncvloop=%d, ncvyear=%d\n", (int)age, maxmax, ftolpl, delaymax, (int)age, (int)delaymax, (int)agefin, ncvloop, *ncvyear);	Earliest age to start was %d-%d=%d, ncvloop=%d, ncvyear=%d\n", (int)age, maxmax, ftolpl, delaymax, (int)age, (int)delaymax, (int)agefin, ncvloop, *ncvyear);
/* printf(" age= %d newm\n",(int)age); */
/* for(i=1; i<=nlstate+ndeath; i++) { */
/* for(j=1;j<=nlstate+ndeath;j++){ */
/* printf(" %lf", newm[i][j]); */
/* } */
/* printf("\n"); */
/* } */
/* printf("\n"); */
/* printf("prlim\n"); */
/* for(i=1; i<=nlstate; i++) { */
/* sumnew=0; */
/* for(k=1; k<=ndeath; k++) sumnew+=newm[i][nlstate+k]; */
/* for(j=1;j<=nlstate;j++){ */
/* prlim[i][j]= newm[i][j]/(1-sumnew); */
/* printf(" %lf", prlim[i][j]); */
/* } */
/* printf("\n"); */
/* } */
/* printf("\n"); */

/* Try to lower 'ftol', for example from 1.e-8 to 6.e-9.\n", ftolpl, (int)age, (int)delaymax, (int)agefin, ncvloop, (int)age-(int)agefin); */	/* Try to lower 'ftol', for example from 1.e-8 to 6.e-9.\n", ftolpl, (int)age, (int)delaymax, (int)agefin, ncvloop, (int)age-(int)agefin); */
	free_vector(min,1,nlstate);
	free_vector(max,1,nlstate);
	free_vector(meandiff,1,nlstate);

return prlim; /* should not reach here */	return prlim; /* should not reach here */
}	}

Line 2717 void likelione(FILE *ficres,double p[],	Line 2758 void likelione(FILE *ficres,double p[],


for (k=1; k<= nlstate ; k++) {	for (k=1; k<= nlstate ; k++) {
fprintf(fichtm,"<br>- Probability p%dj by origin %d and destination j <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \	fprintf(fichtm,"<br>- Probability p<sub>%dj</sub> by origin %d and destination j. Dot's sizes are related to corresponding weight: <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \
<img src=\"%s-p%dj.png\">",k,k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k);	<img src=\"%s-p%dj.png\">",k,k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k);
}	}
fprintf(fichtm,"<br>- The function drawn is -2Log(L) in Log scale: by state of origin <a href=\"%s-ori.png\">%s-ori.png</a><br> \	fprintf(fichtm,"<br>- The function drawn is -2Log(L) in Log scale: by state of origin <a href=\"%s-ori.png\">%s-ori.png</a><br> \
Line 3181 void freqsummary(char fileres[], int ia	Line 3222 void freqsummary(char fileres[], int ia
double **freq; / Frequencies */	double **freq; / Frequencies */
double pp, *prop;	double pp, *prop;
double pos,posprop, k2, dateintsum=0,k2cpt=0;	double pos,posprop, k2, dateintsum=0,k2cpt=0;
char fileresp[FILENAMELENGTH];	char fileresp[FILENAMELENGTH], fileresphtm[FILENAMELENGTH];

pp=vector(1,nlstate);	pp=vector(1,nlstate);
prop=matrix(1,nlstate,iagemin,iagemax+3);	prop=matrix(1,nlstate,iagemin,iagemax+3);
strcpy(fileresp,"P_");	strcpy(fileresp,"P_");
strcat(fileresp,fileresu);	strcat(fileresp,fileresu);
	/strcat(fileresphtm,fileresu);/
if((ficresp=fopen(fileresp,"w"))==NULL) {	if((ficresp=fopen(fileresp,"w"))==NULL) {
printf("Problem with prevalence resultfile: %s\n", fileresp);	printf("Problem with prevalence resultfile: %s\n", fileresp);
fprintf(ficlog,"Problem with prevalence resultfile: %s\n", fileresp);	fprintf(ficlog,"Problem with prevalence resultfile: %s\n", fileresp);
exit(0);	exit(0);
}	}
	printf("Problem with prevalence resultfile: %s\n", fileresp);
	strcpy(fileresphtm,subdirfext(optionfilefiname,"PHTM_",".htm"));
	if((ficresphtm=fopen(fileresphtm,"w"))==NULL) {
	printf("Problem with prevalence HTM resultfile '%s' with errno='%s'\n",fileresphtm,strerror(errno));
	fprintf(ficlog,"Problem with prevalence HTM resultfile '%s' with errno='%s'\n",fileresphtm,strerror(errno));
	fflush(ficlog);
	exit(70);
	}
freq= ma3x(-5,nlstate+ndeath,-5,nlstate+ndeath,iagemin,iagemax+3);	freq= ma3x(-5,nlstate+ndeath,-5,nlstate+ndeath,iagemin,iagemax+3);
j1=0;	j1=0;

Line 3219 void freqsummary(char fileres[], int ia	Line 3269 void freqsummary(char fileres[], int ia
k2cpt=0;	k2cpt=0;
for (i=1; i<=imx; i++) {	for (i=1; i<=imx; i++) {
bool=1;	bool=1;
if (cptcovn>0) { /* Filter is here: Must be looked at for model=V1+V2+V3+V4 */	if (cptcovn>0) { /* Filter is here: Must be looked at for model=V1+V2+V3+V4 */
for (z1=1; z1<=cptcoveff; z1++)	for (z1=1; z1<=cptcoveff; z1++)
if (covar[Tvaraff[z1]][i]!= nbcode[Tvaraff[z1]][codtabm(j1,z1)]){	if (covar[Tvaraff[z1]][i]!= nbcode[Tvaraff[z1]][codtabm(j1,z1)]){
/* Tests if the value of each of the covariates of i is equal to filter j1 */	/* Tests if the value of each of the covariates of i is equal to filter j1 */
Line 3229 void freqsummary(char fileres[], int ia	Line 3279 void freqsummary(char fileres[], int ia
j1,z1,nbcode[Tvaraff[z1]][codtabm(j1,z1)],j1);*/	j1,z1,nbcode[Tvaraff[z1]][codtabm(j1,z1)],j1);*/
/* For j1=7 in V1+V2+V3+V4 = 0 1 1 0 and codtabm(7,3)=1 and nbcde[3][?]=1*/	/* For j1=7 in V1+V2+V3+V4 = 0 1 1 0 and codtabm(7,3)=1 and nbcde[3][?]=1*/
}	}
}	} /* cptcovn > 0 */

if (bool==1){	if (bool==1){
for(m=firstpass; m<=lastpass; m++){	for(m=firstpass; m<=lastpass; m++){
Line 3237 void freqsummary(char fileres[], int ia	Line 3287 void freqsummary(char fileres[], int ia
/if ((k2>=dateprev1) && (k2<=dateprev2)) {/	/if ((k2>=dateprev1) && (k2<=dateprev2)) {/
if(agev[m][i]==0) agev[m][i]=iagemax+1;	if(agev[m][i]==0) agev[m][i]=iagemax+1;
if(agev[m][i]==1) agev[m][i]=iagemax+2;	if(agev[m][i]==1) agev[m][i]=iagemax+2;
if (s[m][i]>0 && s[m][i]<=nlstate) prop[s[m][i]][(int)agev[m][i]] += weight[i];	if (s[m][i]>0 && s[m][i]<=nlstate)
	prop[s[m][i]][(int)agev[m][i]] += weight[i];
if (m<lastpass) {	if (m<lastpass) {
freq[s[m][i]][s[m+1][i]][(int)agev[m][i]] += weight[i];	freq[s[m][i]][s[m+1][i]][(int)agev[m][i]] += weight[i];
freq[s[m][i]][s[m+1][i]][iagemax+3] += weight[i];	freq[s[m][i]][s[m+1][i]][iagemax+3] += weight[i];
}	}

if ((agev[m][i]>1) && (agev[m][i]< (iagemax+3))) {	if ((agev[m][i]>1) && (agev[m][i]< (iagemax+3)) && (anint[m][i]!=9999) && (mint[m][i]!=99)) {
dateintsum=dateintsum+k2;	dateintsum=dateintsum+k2;
k2cpt++;	k2cpt++;
	/* printf("i=%ld dateintmean = %lf dateintsum=%lf k2cpt=%lf k2=%lf\n",i, dateintsum/k2cpt, dateintsum,k2cpt, k2); */
}	}
/}/	/}/
}	} /* end m */
}	} /* end bool */
} /* end i */	} /* end i = 1 to imx */

/* fprintf(ficresp, "#Count between %.lf/%.lf/%.lf and %.lf/%.lf/%.lf\n",jprev1, mprev1,anprev1,jprev2, mprev2,anprev2);*/	/* fprintf(ficresp, "#Count between %.lf/%.lf/%.lf and %.lf/%.lf/%.lf\n",jprev1, mprev1,anprev1,jprev2, mprev2,anprev2);*/
pstamp(ficresp);	pstamp(ficresp);
if (cptcovn>0) {	if (cptcovn>0) {
fprintf(ficresp, "\n#********** Variable ");	fprintf(ficresp, "\n#********** Variable ");
for (z1=1; z1<=cptcoveff; z1++) fprintf(ficresp, "V%d=%d ",Tvaraff[z1],nbcode[Tvaraff[z1]][codtabm(j1,z1)]);	fprintf(ficresphtm, "\n<h3>********** Variable ");
fprintf(ficresp, "**********\n#");	for (z1=1; z1<=cptcoveff; z1++){
	fprintf(ficresp, "V%d=%d ",Tvaraff[z1],nbcode[Tvaraff[z1]][codtabm(j1,z1)]);
	fprintf(ficresphtm, "V%d=%d ",Tvaraff[z1],nbcode[Tvaraff[z1]][codtabm(j1,z1)]);
	}
	fprintf(ficresp, "**********\n#");
	fprintf(ficresphtm, "**********</h3>\n#");
fprintf(ficlog, "\n#********** Variable ");	fprintf(ficlog, "\n#********** Variable ");
for (z1=1; z1<=cptcoveff; z1++) fprintf(ficlog, "V%d=%d ",Tvaraff[z1],nbcode[Tvaraff[z1]][codtabm(j1,z1)]);	for (z1=1; z1<=cptcoveff; z1++) fprintf(ficlog, "V%d=%d ",Tvaraff[z1],nbcode[Tvaraff[z1]][codtabm(j1,z1)]);
fprintf(ficlog, "**********\n#");	fprintf(ficlog, "**********\n#");
}	}
for(i=1; i<=nlstate;i++)	fprintf(ficresphtm,"<table style=\"text-align:center; border: 1px solid\"><th></th>");
	for(i=1; i<=nlstate;i++) {
fprintf(ficresp, " Age Prev(%d) N(%d) N",i,i);	fprintf(ficresp, " Age Prev(%d) N(%d) N",i,i);
	fprintf(ficresphtm, "<th>Age</th><th>Prev(%d)</th><th>N(%d)</th><th>N</th>",i,i);
	}
fprintf(ficresp, "\n");	fprintf(ficresp, "\n");
	fprintf(ficresphtm, "\n");

for(i=iagemin; i <= iagemax+3; i++){	for(i=iagemin; i <= iagemax+3; i++){
	fprintf(ficresphtm,"<tr>");
if(i==iagemax+3){	if(i==iagemax+3){
fprintf(ficlog,"Total");	fprintf(ficlog,"Total");
}else{	}else{
Line 3316 void freqsummary(char fileres[], int ia	Line 3378 void freqsummary(char fileres[], int ia
if( i <= iagemax){	if( i <= iagemax){
if(pos>=1.e-5){	if(pos>=1.e-5){
fprintf(ficresp," %d %.5f %.0f %.0f",i,prop[jk][i]/posprop, prop[jk][i],posprop);	fprintf(ficresp," %d %.5f %.0f %.0f",i,prop[jk][i]/posprop, prop[jk][i],posprop);
	fprintf(ficresphtm,"<th>%d</th><td>%.5f</td><td>%.0f</td><td>%.0f</td>",i,prop[jk][i]/posprop, prop[jk][i],posprop);
/probs[i][jk][j1]= pp[jk]/pos;/	/probs[i][jk][j1]= pp[jk]/pos;/
/printf("\ni=%d jk=%d j1=%d %.5f %.0f %.0f %f",i,jk,j1,pp[jk]/pos, pp[jk],pos,probs[i][jk][j1]);/	/printf("\ni=%d jk=%d j1=%d %.5f %.0f %.0f %f",i,jk,j1,pp[jk]/pos, pp[jk],pos,probs[i][jk][j1]);/
}	}
else	else{
fprintf(ficresp," %d NaNq %.0f %.0f",i,prop[jk][i],posprop);	fprintf(ficresp," %d NaNq %.0f %.0f",i,prop[jk][i],posprop);
	fprintf(ficresphtm,"<th>%d</th><td>NaNq</td><td>%.0f</td><td>%.0f</td>",i, prop[jk][i],posprop);
	}
}	}
}	}

Line 3331 void freqsummary(char fileres[], int ia	Line 3396 void freqsummary(char fileres[], int ia
printf(" %d%d=%.0f",jk,m,freq[jk][m][i]);	printf(" %d%d=%.0f",jk,m,freq[jk][m][i]);
fprintf(ficlog," %d%d=%.0f",jk,m,freq[jk][m][i]);	fprintf(ficlog," %d%d=%.0f",jk,m,freq[jk][m][i]);
}	}
if(i <= iagemax)	if(i <= iagemax){
fprintf(ficresp,"\n");	fprintf(ficresp,"\n");
	fprintf(ficresphtm,"</tr>\n");
	}
if(first==1)	if(first==1)
printf("Others in log...\n");	printf("Others in log...\n");
fprintf(ficlog,"\n");	fprintf(ficlog,"\n");
}	} /* end loop i */
	fprintf(ficresphtm,"</table>\n");
/}/	/}/
}	} /* end j1 */
dateintmean=dateintsum/k2cpt;	dateintmean=dateintsum/k2cpt;

fclose(ficresp);	fclose(ficresp);
	fclose(ficresphtm);
free_ma3x(freq,-5,nlstate+ndeath,-5,nlstate+ndeath, iagemin, iagemax+3);	free_ma3x(freq,-5,nlstate+ndeath,-5,nlstate+ndeath, iagemin, iagemax+3);
free_vector(pp,1,nlstate);	free_vector(pp,1,nlstate);
free_matrix(prop,1,nlstate,iagemin, iagemax+3);	free_matrix(prop,1,nlstate,iagemin, iagemax+3);
Line 4025 void cvevsij(double ***eij, double x[],	Line 4094 void cvevsij(double ***eij, double x[],
}	}

/********** Variance ****************/	/********** Variance ****************/
void varevsij(char optionfilefiname[], double *vareij, double matcov, double x[], double delti[], int nlstate, int stepm, double bage, double fage, double oldm, double savm, double *prlim, double ftolpl, int ncvyear, int ij, int estepm, int cptcov, int cptcod, int popbased, int mobilav, char strstart[])	void varevsij(char optionfilefiname[], double *vareij, double matcov, double x[], double delti[], int nlstate, int stepm, double bage, double fage, double oldm, double savm, double *prlim, double ftolpl, int ncvyearp, int ij, int estepm, int cptcov, int cptcod, int popbased, int mobilav, char strstart[])
{	{
/* Variance of health expectancies */	/* Variance of health expectancies */
/* double prevalim(double prlim, int nlstate, double xp, double age, double oldm, double * savm,double ftolpl);*/	/* double prevalim(double prlim, int nlstate, double xp, double age, double oldm, double * savm,double ftolpl);*/
Line 4128 void cvevsij(double ***eij, double x[],	Line 4197 void cvevsij(double ***eij, double x[],
/* hstepm beeing the number of stepms, if hstepm=1 the length of hstepm is stepm.	/* hstepm beeing the number of stepms, if hstepm=1 the length of hstepm is stepm.
nhstepm is the number of hstepm from age to agelim	nhstepm is the number of hstepm from age to agelim
nstepm is the number of stepm from age to agelim.	nstepm is the number of stepm from age to agelim.
Look at function hpijx to understand why (it is linked to memory size questions)	Look at function hpijx to understand why because of memory size limitations,
we decided (b) to get a life expectancy respecting the most precise curvature of the	we decided (b) to get a life expectancy respecting the most precise curvature of the
survival function given by stepm (the optimization length). Unfortunately it	survival function given by stepm (the optimization length). Unfortunately it
means that if the survival funtion is printed every two years of age and if	means that if the survival funtion is printed every two years of age and if
Line 4150 void cvevsij(double ***eij, double x[],	Line 4219 void cvevsij(double ***eij, double x[],
for(i=1; i<=npar; i++){ /* Computes gradient x + delta*/	for(i=1; i<=npar; i++){ /* Computes gradient x + delta*/
xp[i] = x[i] + (i==theta ?delti[theta]:0);	xp[i] = x[i] + (i==theta ?delti[theta]:0);
}	}
hpxij(p3mat,nhstepm,age,hstepm,xp,nlstate,stepm,oldm,savm, ij);
prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyear,ij);	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp,ij);

if (popbased==1) {	if (popbased==1) {
if(mobilav ==0){	if(mobilav ==0){
Line 4163 void cvevsij(double ***eij, double x[],	Line 4232 void cvevsij(double ***eij, double x[],
}	}
}	}

	hpxij(p3mat,nhstepm,age,hstepm,xp,nlstate,stepm,oldm,savm, ij); /* Returns p3mat[i][j][h] for h=1 to nhstepm */
for(j=1; j<= nlstate; j++){	for(j=1; j<= nlstate; j++){
for(h=0; h<=nhstepm; h++){	for(h=0; h<=nhstepm; h++){
for(i=1, gp[h][j]=0.;i<=nlstate;i++)	for(i=1, gp[h][j]=0.;i<=nlstate;i++)
gp[h][j] += prlim[i][i]*p3mat[i][j][h];	gp[h][j] += prlim[i][i]*p3mat[i][j][h];
}	}
}	}
/* This for computing probability of death (h=1 means	/* Next for computing probability of death (h=1 means
computed over hstepm matrices product = hstepm*stepm months)	computed over hstepm matrices product = hstepm*stepm months)
as a weighted average of prlim.	as a weighted average of prlim.
*/	*/
Line 4181 void cvevsij(double ***eij, double x[],	Line 4251 void cvevsij(double ***eij, double x[],

for(i=1; i<=npar; i++) /* Computes gradient x - delta */	for(i=1; i<=npar; i++) /* Computes gradient x - delta */
xp[i] = x[i] - (i==theta ?delti[theta]:0);	xp[i] = x[i] - (i==theta ?delti[theta]:0);
hpxij(p3mat,nhstepm,age,hstepm,xp,nlstate,stepm,oldm,savm, ij);
prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyear, ij);	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp, ij);

if (popbased==1) {	if (popbased==1) {
if(mobilav ==0){	if(mobilav ==0){
Line 4194 void cvevsij(double ***eij, double x[],	Line 4264 void cvevsij(double ***eij, double x[],
}	}
}	}

	hpxij(p3mat,nhstepm,age,hstepm,xp,nlstate,stepm,oldm,savm, ij);

for(j=1; j<= nlstate; j++){ /* Sum of wi * eij = e.j */	for(j=1; j<= nlstate; j++){ /* Sum of wi * eij = e.j */
for(h=0; h<=nhstepm; h++){	for(h=0; h<=nhstepm; h++){
for(i=1, gm[h][j]=0.;i<=nlstate;i++)	for(i=1, gm[h][j]=0.;i<=nlstate;i++)
Line 4256 void cvevsij(double ***eij, double x[],	Line 4328 void cvevsij(double ***eij, double x[],
varppt[j][i]=doldmp[j][i];	varppt[j][i]=doldmp[j][i];
/* end ppptj */	/* end ppptj */
/* x centered again */	/* x centered again */
hpxij(p3mat,nhstepm,age,hstepm,x,nlstate,stepm,oldm,savm, ij);
prevalim(prlim,nlstate,x,age,oldm,savm,ftolpl,ncvyear,ij);	prevalim(prlim,nlstate,x,age,oldm,savm,ftolpl,ncvyearp,ij);

if (popbased==1) {	if (popbased==1) {
if(mobilav ==0){	if(mobilav ==0){
Line 4273 void cvevsij(double ***eij, double x[],	Line 4345 void cvevsij(double ***eij, double x[],
computed over hstepm (estepm) matrices product = hstepm*stepm months)	computed over hstepm (estepm) matrices product = hstepm*stepm months)
as a weighted average of prlim.	as a weighted average of prlim.
*/	*/
	hpxij(p3mat,nhstepm,age,hstepm,x,nlstate,stepm,oldm,savm, ij);
for(j=nlstate+1;j<=nlstate+ndeath;j++){	for(j=nlstate+1;j<=nlstate+ndeath;j++){
for(i=1,gmp[j]=0.;i<= nlstate; i++)	for(i=1,gmp[j]=0.;i<= nlstate; i++)
gmp[j] += prlim[i][i]*p3mat[i][j][1];	gmp[j] += prlim[i][i]*p3mat[i][j][1];
Line 4335 void cvevsij(double ***eij, double x[],	Line 4408 void cvevsij(double ***eij, double x[],
} /* end varevsij */	} /* end varevsij */

/********** Variance of prevlim ****************/	/********** Variance of prevlim ****************/
void varprevlim(char fileres[], double varpl, double matcov, double x[], double delti[], int nlstate, int stepm, double bage, double fage, double oldm, double savm, double *prlim, double ftolpl, int ncvyear, int ij, char strstart[])	void varprevlim(char fileres[], double varpl, double matcov, double x[], double delti[], int nlstate, int stepm, double bage, double fage, double oldm, double savm, double *prlim, double ftolpl, int ncvyearp, int ij, char strstart[])
{	{
/* Variance of prevalence limit for each state ij using current parameters x[] and estimates of neighbourhood give by delti*/	/* Variance of prevalence limit for each state ij using current parameters x[] and estimates of neighbourhood give by delti*/
/* double prevalim(double prlim, int nlstate, double xp, double age, double oldm, double savm,double ftolpl);/	/* double prevalim(double prlim, int nlstate, double xp, double age, double oldm, double savm,double ftolpl);/
Line 4367 void cvevsij(double ***eij, double x[],	Line 4440 void cvevsij(double ***eij, double x[],
nhstepm=(int) rint((agelim-age)YEARM/stepm); / Typically 20 years = 2012/6=40 /	nhstepm=(int) rint((agelim-age)YEARM/stepm); / Typically 20 years = 2012/6=40 /
if (stepm >= YEARM) hstepm=1;	if (stepm >= YEARM) hstepm=1;
nhstepm = nhstepm/hstepm; /* Typically 40/4=10 */	nhstepm = nhstepm/hstepm; /* Typically 40/4=10 */
p3mat=ma3x(1,nlstate+ndeath,1, nlstate+ndeath, 0,nhstepm);
gradg=matrix(1,npar,1,nlstate);	gradg=matrix(1,npar,1,nlstate);
mgp=matrix(1,npar,1,nlstate);	mgp=matrix(1,npar,1,nlstate);
mgm=matrix(1,npar,1,nlstate);	mgm=matrix(1,npar,1,nlstate);
Line 4378 void cvevsij(double ***eij, double x[],	Line 4450 void cvevsij(double ***eij, double x[],
for(i=1; i<=npar; i++){ /* Computes gradient */	for(i=1; i<=npar; i++){ /* Computes gradient */
xp[i] = x[i] + (i==theta ?delti[theta]:0);	xp[i] = x[i] + (i==theta ?delti[theta]:0);
}	}
hpxij(p3mat,nhstepm,age,hstepm,xp,nlstate,stepm,oldm,savm, ij); /* Missing or not useful because 1 year */	if((int)age==79 \|\|(int)age== 80 \|\|(int)age== 81 )
prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyear,ij);	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp,ij);
	else
	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp,ij);
for(i=1;i<=nlstate;i++){	for(i=1;i<=nlstate;i++){
gp[i] = prlim[i][i];	gp[i] = prlim[i][i];
mgp[theta][i] = prlim[i][i];	mgp[theta][i] = prlim[i][i];
}	}
for(i=1; i<=npar; i++) /* Computes gradient */	for(i=1; i<=npar; i++) /* Computes gradient */
xp[i] = x[i] - (i==theta ?delti[theta]:0);	xp[i] = x[i] - (i==theta ?delti[theta]:0);
prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyear,ij);	if((int)age==79 \|\|(int)age== 80 \|\|(int)age== 81 )
	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp,ij);
	else
	prevalim(prlim,nlstate,xp,age,oldm,savm,ftolpl,ncvyearp,ij);
for(i=1;i<=nlstate;i++){	for(i=1;i<=nlstate;i++){
gm[i] = prlim[i][i];	gm[i] = prlim[i][i];
mgm[theta][i] = prlim[i][i];	mgm[theta][i] = prlim[i][i];
}	}
for(i=1;i<=nlstate;i++)	for(i=1;i<=nlstate;i++)
gradg[theta][i]= (gp[i]-gm[i])/2./delti[theta];	gradg[theta][i]= (gp[i]-gm[i])/2./delti[theta];
	/* gradg[theta][2]= -gradg[theta][1]; / / For testing if nlstate=2 */
} /* End theta */	} /* End theta */

trgradg =matrix(1,nlstate,1,npar);	trgradg =matrix(1,nlstate,1,npar);
Line 4400 void cvevsij(double ***eij, double x[],	Line 4478 void cvevsij(double ***eij, double x[],
for(j=1; j<=nlstate;j++)	for(j=1; j<=nlstate;j++)
for(theta=1; theta <=npar; theta++)	for(theta=1; theta <=npar; theta++)
trgradg[j][theta]=gradg[theta][j];	trgradg[j][theta]=gradg[theta][j];
if((int)age==68 \|\|(int)age== 69 ){	/* if((int)age==79 \|\|(int)age== 80 \|\|(int)age== 81 ){ */
printf("\nmgm mgp %d ",(int)age);	/* printf("\nmgm mgp %d ",(int)age); */
for(j=1; j<=nlstate;j++){	/* for(j=1; j<=nlstate;j++){ */
printf("%d ",j);	/* printf(" %d ",j); */
for(theta=1; theta <=npar; theta++)	/* for(theta=1; theta <=npar; theta++) */
printf("%d %lf %lf",theta,mgm[theta][j],mgp[theta][j]);	/* printf(" %d %lf %lf",theta,mgm[theta][j],mgp[theta][j]); */
printf("\n ");	/* printf("\n "); */
}	/* } */
}	/* } */
if((int)age==68 \|\|(int)age== 69 ){	/* if((int)age==79 \|\|(int)age== 80 \|\|(int)age== 81 ){ */
printf("\n gradg %d ",(int)age);	/* printf("\n gradg %d ",(int)age); */
for(j=1; j<=nlstate;j++){	/* for(j=1; j<=nlstate;j++){ */
printf("%d ",j);	/* printf("%d ",j); */
for(theta=1; theta <=npar; theta++)	/* for(theta=1; theta <=npar; theta++) */
printf("%d %lf ",theta,gradg[theta][j]);	/* printf("%d %lf ",theta,gradg[theta][j]); */
printf("\n ");	/* printf("\n "); */
}	/* } */
}	/* } */

for(i=1;i<=nlstate;i++)	for(i=1;i<=nlstate;i++)
varpl[i][(int)age] =0.;	varpl[i][(int)age] =0.;
if((int)age==68 \|\|(int)age== 69 ){	if((int)age==79 \|\|(int)age== 80 \|\|(int)age== 81){
matprod2(dnewm,trgradg,1,nlstate,1,npar,1,npar,matcov);	matprod2(dnewm,trgradg,1,nlstate,1,npar,1,npar,matcov);
matprod2(doldm,dnewm,1,nlstate,1,npar,1,nlstate,gradg);	matprod2(doldm,dnewm,1,nlstate,1,npar,1,nlstate,gradg);
}else{	}else{
Line 4789 To be simple, these graphs help to under	Line 4867 To be simple, these graphs help to under
void printinghtml(char fileresu[], char title[], char datafile[], int firstpass, \	void printinghtml(char fileresu[], char title[], char datafile[], int firstpass, \
int lastpass, int stepm, int weightopt, char model[],\	int lastpass, int stepm, int weightopt, char model[],\
int imx,int jmin, int jmax, double jmeanint,char rfileres[],\	int imx,int jmin, int jmax, double jmeanint,char rfileres[],\
int popforecast, int estepm ,\	int popforecast, int prevfcast, int estepm , \
double jprev1, double mprev1,double anprev1, \	double jprev1, double mprev1,double anprev1, double dateprev1, \
double jprev2, double mprev2,double anprev2){	double jprev2, double mprev2,double anprev2, double dateprev2){
int jj1, k1, i1, cpt;	int jj1, k1, i1, cpt;

fprintf(fichtm,"<ul><li><a href='#firstorder'>Result files (first order: no variance)</a>\n \	fprintf(fichtm,"<ul><li><a href='#firstorder'>Result files (first order: no variance)</a>\n \
<li><a href='#secondorder'>Result files (second order (variance)</a>\n \	<li><a href='#secondorder'>Result files (second order (variance)</a>\n \
</ul>");	</ul>");
fprintf(fichtm,"<ul><li><h4><a name='firstorder'>Result files (first order: no variance)</a></h4>\n \	fprintf(fichtm,"<ul><li><h4><a name='firstorder'>Result files (first order: no variance)</a></h4>\n \
- Observed prevalence in each state (during the period defined between %.lf/%.lf/%.lf and %.lf/%.lf/%.lf): <a href=\"%s\">%s</a> <br>\n ",	- Observed prevalence in each state (during the period defined between %.lf/%.lf/%.lf and %.lf/%.lf/%.lf): <a href=\"%s\">%s</a> (html file) ",
jprev1, mprev1,anprev1,jprev2, mprev2,anprev2,subdirf2(fileresu,"P_"),subdirf2(fileresu,"P_"));	jprev1, mprev1,anprev1,jprev2, mprev2,anprev2,subdirfext3(optionfilefiname,"PHTM_",".htm"),subdirfext3(optionfilefiname,"PHTM_",".htm"));
	fprintf(fichtm,", <a href=\"%s\">%s</a> (text file) <br>\n",subdirf2(fileresu,"P_"),subdirf2(fileresu,"P_"));
fprintf(fichtm,"\	fprintf(fichtm,"\
- Estimated transition probabilities over %d (stepm) months: <a href=\"%s\">%s</a><br>\n ",	- Estimated transition probabilities over %d (stepm) months: <a href=\"%s\">%s</a><br>\n ",
stepm,subdirf2(fileresu,"PIJ_"),subdirf2(fileresu,"PIJ_"));	stepm,subdirf2(fileresu,"PIJ_"),subdirf2(fileresu,"PIJ_"));
Line 4807 void printinghtml(char fileresu[], char	Line 4886 void printinghtml(char fileresu[], char
- Period (stable) prevalence in each health state: <a href=\"%s\">%s</a> <br>\n",	- Period (stable) prevalence in each health state: <a href=\"%s\">%s</a> <br>\n",
subdirf2(fileresu,"PL_"),subdirf2(fileresu,"PL_"));	subdirf2(fileresu,"PL_"),subdirf2(fileresu,"PL_"));
fprintf(fichtm,"\	fprintf(fichtm,"\
- (a) Life expectancies by health status at initial age, ei. (b) health expectancies by health status at initial age, eij . If one or more covariates are included, specific tables for each value of the covariate are output in sequences within the same file (estepm=%2d months): \	- (a) Life expectancies by health status at initial age, e<sub>i.</sub> (b) health expectancies by health status at initial age, e<sub>ij</sub> . If one or more covariates are included, specific tables for each value of the covariate are output in sequences within the same file (estepm=%2d months): \
<a href=\"%s\">%s</a> <br>\n",	<a href=\"%s\">%s</a> <br>\n",
estepm,subdirf2(fileresu,"E_"),subdirf2(fileresu,"E_"));	estepm,subdirf2(fileresu,"E_"),subdirf2(fileresu,"E_"));
fprintf(fichtm,"\	if(prevfcast==1){
- Population projections by age and states: \	fprintf(fichtm,"\
	- Prevalence projections by age and states: \
<a href=\"%s\">%s</a> <br>\n</li>", subdirf2(fileresu,"F_"),subdirf2(fileresu,"F_"));	<a href=\"%s\">%s</a> <br>\n</li>", subdirf2(fileresu,"F_"),subdirf2(fileresu,"F_"));
	}

fprintf(fichtm," \n<ul><li><b>Graphs</b></li><p>");	fprintf(fichtm," \n<ul><li><b>Graphs</b></li><p>");

Line 4832 fprintf(fichtm," \n<ul><li><b>Graphs</b>	Line 4913 fprintf(fichtm," \n<ul><li><b>Graphs</b>
fprintf(fichtm," ************\n<hr size=\"2\" color=\"#EC5E5E\">");	fprintf(fichtm," ************\n<hr size=\"2\" color=\"#EC5E5E\">");
}	}
/* aij, bij */	/* aij, bij */
fprintf(fichtm,"<br>- Logit model, for example: logit(pij)=log(pij/pii)= aij+ bij age + V1 age + etc. as a function of age: <a href=\"%s_%d-1.svg\">%s_%d-1.svg</a><br> \	fprintf(fichtm,"<br>- Logit model (yours is: 1+age+%s), for example: logit(pij)=log(pij/pii)= aij+ bij age + V1 age + etc. as a function of age: <a href=\"%s_%d-1.svg\">%s_%d-1.svg</a><br> \
<img src=\"%s_%d-1.svg\">",subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);	<img src=\"%s_%d-1.svg\">",model,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);
/* Pij */	/* Pij */
fprintf(fichtm,"<br>\n- Pij or conditional probabilities to be observed in state j being in state i, %d (stepm) months before: <a href=\"%s_%d-2.svg\">%s_%d-2.svg</a><br> \	fprintf(fichtm,"<br>\n- P<sub>ij</sub> or conditional probabilities to be observed in state j being in state i, %d (stepm) months before: <a href=\"%s_%d-2.svg\">%s_%d-2.svg</a><br> \
<img src=\"%s_%d-2.svg\">",stepm,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);	<img src=\"%s_%d-2.svg\">",stepm,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);
/* Quasi-incidences */	/* Quasi-incidences */
fprintf(fichtm,"<br>\n- Iij or Conditional probabilities to be observed in state j being in state i %d (stepm) months\	fprintf(fichtm,"<br>\n- I<sub>ij</sub> or Conditional probabilities to be observed in state j being in state i %d (stepm) months\
before but expressed in per year i.e. quasi incidences if stepm is small and probabilities too,\	before but expressed in per year i.e. quasi incidences if stepm is small and probabilities too,\
incidence (rates) are the limit when h tends to zero of the ratio of the probability hPij \	incidence (rates) are the limit when h tends to zero of the ratio of the probability <sub>h</sub>P<sub>ij</sub> \
divided by h: hPij/h : <a href=\"%s_%d-3.svg\">%s_%d-3.svg</a><br> \	divided by h: <sub>h</sub>P<sub>ij</sub>/h : <a href=\"%s_%d-3.svg\">%s_%d-3.svg</a><br> \
<img src=\"%s_%d-3.svg\">",stepm,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);	<img src=\"%s_%d-3.svg\">",stepm,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1,subdirf2(optionfilefiname,"PE_"),jj1);
/* Survival functions (period) in state j */	/* Survival functions (period) in state j */
for(cpt=1; cpt<=nlstate;cpt++){	for(cpt=1; cpt<=nlstate;cpt++){
Line 4859 divided by h: hPij/h : <a href=\"%s_%d-3	Line 4940 divided by h: hPij/h : <a href=\"%s_%d-3
fprintf(fichtm,"<br>\n- Convergence to period (stable) prevalence in state %d. Or probability to be in state %d being in state (1 to %d) at different ages. <a href=\"%s%d_%d.svg\">%s%d_%d.svg</a><br> \	fprintf(fichtm,"<br>\n- Convergence to period (stable) prevalence in state %d. Or probability to be in state %d being in state (1 to %d) at different ages. <a href=\"%s%d_%d.svg\">%s%d_%d.svg</a><br> \
<img src=\"%s_%d-%d.svg\">", cpt, cpt, nlstate, subdirf2(optionfilefiname,"P_"),cpt,jj1,subdirf2(optionfilefiname,"P_"),cpt,jj1,subdirf2(optionfilefiname,"P_"),cpt,jj1);	<img src=\"%s_%d-%d.svg\">", cpt, cpt, nlstate, subdirf2(optionfilefiname,"P_"),cpt,jj1,subdirf2(optionfilefiname,"P_"),cpt,jj1,subdirf2(optionfilefiname,"P_"),cpt,jj1);
}	}
	if(prevfcast==1){
	/* Projection of prevalence up to period (stable) prevalence in each health state */
	for(cpt=1; cpt<=nlstate;cpt++){
	fprintf(fichtm,"<br>\n- Projection of cross-sectional prevalence (estimated with cases observed from %f to %f) up to period (stable) prevalence in state %d. Or probability to be in state %d being in state (1 to %d) at different ages. <a href=\"%s%d_%d.svg\">%s%d_%d.svg</a><br> \
	<img src=\"%s_%d-%d.svg\">", dateprev1, dateprev2, cpt, cpt, nlstate, subdirf2(optionfilefiname,"PROJ_"),cpt,jj1,subdirf2(optionfilefiname,"PROJ_"),cpt,jj1,subdirf2(optionfilefiname,"PROJ_"),cpt,jj1);
	}
	}

for(cpt=1; cpt<=nlstate;cpt++) {	for(cpt=1; cpt<=nlstate;cpt++) {
fprintf(fichtm,"\n<br>- Life expectancy by health state (%d) at initial age and its decomposition into health expectancies in each alive state (1 to %d) (or area under each survival functions): <a href=\"%s_%d%d.svg\">%s_%d%d.svg</a> <br> \	fprintf(fichtm,"\n<br>- Life expectancy by health state (%d) at initial age and its decomposition into health expectancies in each alive state (1 to %d) (or area under each survival functions): <a href=\"%s_%d%d.svg\">%s_%d%d.svg</a> <br> \
<img src=\"%s_%d%d.svg\">",cpt,nlstate,subdirf2(optionfilefiname,"EXP_"),cpt,jj1,subdirf2(optionfilefiname,"EXP_"),cpt,jj1,subdirf2(optionfilefiname,"EXP_"),cpt,jj1);	<img src=\"%s_%d%d.svg\">",cpt,nlstate,subdirf2(optionfilefiname,"EXP_"),cpt,jj1,subdirf2(optionfilefiname,"EXP_"),cpt,jj1,subdirf2(optionfilefiname,"EXP_"),cpt,jj1);
Line 4946 true period expectancies (those weighted	Line 5035 true period expectancies (those weighted
}	}

/***************** Gnuplot file ************/	/***************** Gnuplot file ************/
void printinggnuplot(char fileresu[], char optionfilefiname[], double ageminpar, double agemaxpar, double fage , char pathc[], double p[]){	void printinggnuplot(char fileresu[], char optionfilefiname[], double ageminpar, double agemaxpar, double fage , int prevfcast, char pathc[], double p[]){

char dirfileres[132],optfileres[132];	char dirfileres[132],optfileres[132];
int cpt=0,k1=0,i=0,k=0,j=0,jk=0,k2=0,k3=0,ij=0,l=0;	int cpt=0,k1=0,i=0,k=0,j=0,jk=0,k2=0,k3=0,ij=0,l=0;
	int lv=0, vlv=0, kl=0;
int ng=0;	int ng=0;
int vpopbased;	int vpopbased;
/* if((ficgp=fopen(optionfilegnuplot,"a"))==NULL) { */	/* if((ficgp=fopen(optionfilegnuplot,"a"))==NULL) { */
Line 4994 void printinggnuplot(char fileresu[], ch	Line 5084 void printinggnuplot(char fileresu[], ch
strcpy(dirfileres,optionfilefiname);	strcpy(dirfileres,optionfilefiname);
strcpy(optfileres,"vpl");	strcpy(optfileres,"vpl");
/* 1eme*/	/* 1eme*/
fprintf(ficgp,"\n# 1st: Period (stable) prevalence with CI: 'VPL_' files\n");	for (cpt=1; cpt<= nlstate ; cpt ++) { /* For each live state */
for (cpt=1; cpt<= nlstate ; cpt ++) {	for (k1=1; k1<= m ; k1 ++) { /* For each combination of covariate */
for (k1=1; k1<= m ; k1 ++) { /* plot [100000000000000000000:-100000000000000000000] "mysbiaspar/vplrmysbiaspar.txt to check */	/* plot [100000000000000000000:-100000000000000000000] "mysbiaspar/vplrmysbiaspar.txt to check */
	fprintf(ficgp,"\n# 1st: Period (stable) prevalence with CI: 'VPL_' files ");
	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"V_"),cpt,k1);	fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"V_"),cpt,k1);
fprintf(ficgp,"\n#set out \"V_%s_%d-%d.svg\" \n",optionfilefiname,cpt,k1);	fprintf(ficgp,"\n#set out \"V_%s_%d-%d.svg\" \n",optionfilefiname,cpt,k1);
fprintf(ficgp,"set xlabel \"Age\" \n\	fprintf(ficgp,"set xlabel \"Age\" \n\
Line 5023 plot [%.f:%.f] \"%s\" every :::%d::%d u	Line 5124 plot [%.f:%.f] \"%s\" every :::%d::%d u
} /* k1 */	} /* k1 */
} /* cpt */	} /* cpt */
/2 eme/	/2 eme/
fprintf(ficgp,"\n# 2nd: Total life expectancy with CI: 't' files\n");
for (k1=1; k1<= m ; k1 ++) {	for (k1=1; k1<= m ; k1 ++) {
	fprintf(ficgp,"\n# 2nd: Total life expectancy with CI: 't' files ");
	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

fprintf(ficgp,"\nset out \"%s_%d.svg\" \n",subdirf2(optionfilefiname,"E_"),k1);	fprintf(ficgp,"\nset out \"%s_%d.svg\" \n",subdirf2(optionfilefiname,"E_"),k1);
for(vpopbased=0; vpopbased <= popbased; vpopbased++){ /* Done for vpopbased=0 and vpopbased=1 if popbased==1*/	for(vpopbased=0; vpopbased <= popbased; vpopbased++){ /* Done for vpopbased=0 and vpopbased=1 if popbased==1*/
if(vpopbased==0)	if(vpopbased==0)
Line 5057 plot [%.f:%.f] \"%s\" every :::%d::%d u	Line 5168 plot [%.f:%.f] \"%s\" every :::%d::%d u
} /* vpopbased */	} /* vpopbased */
fprintf(ficgp,"\nset out;set out \"%s_%d.svg\"; replot; set out; \n",subdirf2(optionfilefiname,"E_"),k1); /* Buggy gnuplot */	fprintf(ficgp,"\nset out;set out \"%s_%d.svg\"; replot; set out; \n",subdirf2(optionfilefiname,"E_"),k1); /* Buggy gnuplot */
} /* k1 */	} /* k1 */


/3eme/	/3eme/

for (k1=1; k1<= m ; k1 ++) {	for (k1=1; k1<= m ; k1 ++) {
for (cpt=1; cpt<= nlstate ; cpt ++) {	for (cpt=1; cpt<= nlstate ; cpt ++) {
	fprintf(ficgp,"\n# 3d: Life expectancy with EXP_ files: cov=%d state=%d",k1, cpt);
	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

/* k=2+nlstate(2cpt-2); */	/* k=2+nlstate(2cpt-2); */
k=2+(nlstate+1)*(cpt-1);	k=2+(nlstate+1)*(cpt-1);
fprintf(ficgp,"\nset out \"%s_%d%d.svg\" \n",subdirf2(optionfilefiname,"EXP_"),cpt,k1);	fprintf(ficgp,"\nset out \"%s_%d%d.svg\" \n",subdirf2(optionfilefiname,"EXP_"),cpt,k1);
Line 5086 plot [%.f:%.f] \"%s\" every :::%d::%d u	Line 5209 plot [%.f:%.f] \"%s\" every :::%d::%d u
/* Survival functions (period) from state i in state j by initial state i */	/* Survival functions (period) from state i in state j by initial state i */
for (k1=1; k1<= m ; k1 ++) { /* For each multivariate if any */	for (k1=1; k1<= m ; k1 ++) { /* For each multivariate if any */
for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each life state */	for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each life state */
k=3;	fprintf(ficgp,"\n#\n#\n# Survival functions in state j : 'LIJ_' files, cov=%d state=%d",k1, cpt);
fprintf(ficgp,"\n#\n#\n# Survival functions in state j : 'lij' files, cov=%d state=%d",k1, cpt);	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"LIJ_"),cpt,k1);	fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"LIJ_"),cpt,k1);
fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability to be alive\" \n\	fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability to be alive\" \n\
set ter svg size 640, 480\n\	set ter svg size 640, 480\n\
unset log y\n\	unset log y\n\
plot [%.f:%.f] ", ageminpar, agemaxpar);	plot [%.f:%.f] ", ageminpar, agemaxpar);
	k=3;
for (i=1; i<= nlstate ; i ++){	for (i=1; i<= nlstate ; i ++){
if(i==1)	if(i==1)
fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));	fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));
Line 5111 plot [%.f:%.f] ", ageminpar, agemaxpar)	Line 5244 plot [%.f:%.f] ", ageminpar, agemaxpar)
/* Survival functions (period) from state i in state j by final state j */	/* Survival functions (period) from state i in state j by final state j */
for (k1=1; k1<= m ; k1 ++) { /* For each covariate if any */	for (k1=1; k1<= m ; k1 ++) { /* For each covariate if any */
for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each inital state */	for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each inital state */
k=3;
fprintf(ficgp,"\n#\n#\n# Survival functions in state j and all livestates from state i by final state j: 'lij' files, cov=%d state=%d",k1, cpt);	fprintf(ficgp,"\n#\n#\n# Survival functions in state j and all livestates from state i by final state j: 'lij' files, cov=%d state=%d",k1, cpt);
	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"LIJT_"),cpt,k1);	fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"LIJT_"),cpt,k1);
fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability to be alive\" \n\	fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability to be alive\" \n\
set ter svg size 640, 480\n\	set ter svg size 640, 480\n\
unset log y\n\	unset log y\n\
plot [%.f:%.f] ", ageminpar, agemaxpar);	plot [%.f:%.f] ", ageminpar, agemaxpar);
	k=3;
for (j=1; j<= nlstate ; j ++){ /* Lived in state j */	for (j=1; j<= nlstate ; j ++){ /* Lived in state j */
if(j==1)	if(j==1)
fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));	fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));
Line 5143 plot [%.f:%.f] ", ageminpar, agemaxpar)	Line 5286 plot [%.f:%.f] ", ageminpar, agemaxpar)
} /* end covariate */	} /* end covariate */

/* CV preval stable (period) for each covariate */	/* CV preval stable (period) for each covariate */
for (k1=1; k1<= m ; k1 ++) { /* For each covariate if any */	for (k1=1; k1<= m ; k1 ++) { /* For each covariate combination (1 to m=2*k), if any covariate is present /
for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each life state */	for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each life state */
k=3;	fprintf(ficgp,"\n#\n#\n#CV preval stable (period): 'pij' files, covariatecombination#=%d state=%d",k1, cpt);
fprintf(ficgp,"\n#\n#\n#CV preval stable (period): 'pij' files, cov=%d state=%d",k1, cpt);	for (k=1; k<=cptcoveff; k++){ /* For each covariate and each value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate number corresponding to k1 combination */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"P_"),cpt,k1);	fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"P_"),cpt,k1);
fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability\" \n\	fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Probability\" \n\
set ter svg size 640, 480\n\	set ter svg size 640, 480\n\
unset log y\n\	unset log y\n\
plot [%.f:%.f] ", ageminpar, agemaxpar);	plot [%.f:%.f] ", ageminpar, agemaxpar);
	k=3; /* Offset */
for (i=1; i<= nlstate ; i ++){	for (i=1; i<= nlstate ; i ++){
if(i==1)	if(i==1)
fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));	fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"PIJ_"));
Line 5167 plot [%.f:%.f] ", ageminpar, agemaxpar)	Line 5320 plot [%.f:%.f] ", ageminpar, agemaxpar)
} /* end cpt state*/	} /* end cpt state*/
} /* end covariate */	} /* end covariate */

	if(prevfcast==1){
	/* Projection from cross-sectional to stable (period) for each covariate */

	for (k1=1; k1<= m ; k1 ++) { /* For each covariate combination (1 to m=2*k), if any covariate is present /
	for (cpt=1; cpt<=nlstate ; cpt ++) { /* For each life state */
	fprintf(ficgp,"\n#\n#\n#Projection of prevalence to stable (period): 'PROJ_' files, covariatecombination#=%d state=%d",k1, cpt);
	for (k=1; k<=cptcoveff; k++){ /* For each correspondig covariate value */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate value corresponding to k1 combination and kth covariate */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	fprintf(ficgp," V%d=%d ",k,vlv);
	}
	fprintf(ficgp,"\n#\n");

	fprintf(ficgp,"# hpijx=probability over h years, hp.jx is weighted by observed prev\n ");
	fprintf(ficgp,"\nset out \"%s_%d-%d.svg\" \n",subdirf2(optionfilefiname,"PROJ_"),cpt,k1);
	fprintf(ficgp,"set xlabel \"Age\" \nset ylabel \"Prevalence\" \n\
	set ter svg size 640, 480\n\
	unset log y\n\
	plot [%.f:%.f] ", ageminpar, agemaxpar);
	for (i=1; i<= nlstate+1 ; i ++){ /* nlstate +1 p11 p21 p.1 */
	/# V1 = 1 V2 = 0 yearproj age p11 p21 p.1 p12 p22 p.2 p13 p23 p.3/
	/# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 /
	/# yearproj age p11 p21 p.1 p12 p22 p.2 p13 p23 p.3/
	/# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 /
	if(i==1){
	fprintf(ficgp,"\"%s\"",subdirf2(fileresu,"F_"));
	}else{
	fprintf(ficgp,",\\\n '' ");
	}
	if(cptcoveff ==0){ /* No covariate */
	fprintf(ficgp," u 2:("); /* Age is in 2 */
	/# yearproj age p11 p21 p31 p.1 p12 p22 p32 p.2 p13 p23 p33 p.3 p14 p24 p34 p.4/
	/# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 /
	if(i==nlstate+1)
	fprintf(ficgp," $%d/(1.-$%d)) t 'p.%d' with line ", \
	2+(cpt-1)(nlstate+1)+1+(i-1), 2+1+(i-1)+(nlstate+1)nlstate,cpt );
	else
	fprintf(ficgp," $%d/(1.-$%d)) t 'p%d%d' with line ", \
	2+(cpt-1)(nlstate+1)+1+(i-1), 2+1+(i-1)+(nlstate+1)nlstate,i,cpt );
	}else{
	fprintf(ficgp,"u 6:(("); /* Age is in 6 */
	/# V1 = 1 V2 = 0 yearproj age p11 p21 p.1 p12 p22 p.2 p13 p23 p.3/
	/# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 /
	kl=0;
	for (k=1; k<=cptcoveff; k++){ /* For each covariate */
	lv= decodtabm(k1,k,cptcoveff); /* Should be the covariate value corresponding to k1 combination and kth covariate */
	/* decodtabm(1,1,4) = 1 because h=1 k= (1) 1 1 1 */
	/* decodtabm(1,2,4) = 1 because h=1 k= 1 (1) 1 1 */
	/* decodtabm(13,3,4)= 2 because h=13 k= 1 1 (2) 2 */
	vlv= nbcode[Tvaraff[lv]][lv];
	kl++;
	/* kl=6+(cpt-1)(nlstate+1)+1+(i-1); /\ 6+(1-1)(2+1)+1+(1-1)=7, 6+(2-1)(2+1)+1+(1-1)=10 \/ */
	/6+(cpt-1)(nlstate+1)+1+(i-1)+(nlstate+1)nlstate; 6+(1-1)(2+1)+1+(1-1) +(2+1)2=13 /
	/6+1+(i-1)+(nlstate+1)nlstate; 6+1+(1-1) +(2+1)2=13 /
	/* '' u 6:(($1==1 && $2==0 && $3==2 && $4==0)? $9/(1.-$15) : 1/0):($5==2000? 3:2) t 'p.1' with line lc variable*/
	if(k==cptcoveff)
	if(i==nlstate+1)
	fprintf(ficgp,"$%d==%d && $%d==%d)? $%d/(1.-$%d) : 1/0) t 'p.%d' with line ",kl, k,kl+1,nbcode[Tvaraff[lv]][lv], \
	6+(cpt-1)(nlstate+1)+1+(i-1), 6+1+(i-1)+(nlstate+1)nlstate,cpt );
	else
	fprintf(ficgp,"$%d==%d && $%d==%d)? $%d/(1.-$%d) : 1/0) t 'p%d%d' with line ",kl, k,kl+1,nbcode[Tvaraff[lv]][lv], \
	6+(cpt-1)(nlstate+1)+1+(i-1), 6+1+(i-1)+(nlstate+1)nlstate,i,cpt );
	else{
	fprintf(ficgp,"$%d==%d && $%d==%d && ",kl, k,kl+1,nbcode[Tvaraff[lv]][lv]);
	kl++;
	}
	} /* end covariate */
	} /* end if covariate */
	} /* nlstate */
	fprintf(ficgp,"\nset out\n");
	} /* end cpt state*/
	} /* end covariate */
	} /* End if prevfcast */


/* proba elementaires */	/* proba elementaires */
fprintf(ficgp,"\n##############\n#MLE estimated parameters\n#############\n");	fprintf(ficgp,"\n##############\n#MLE estimated parameters\n#############\n");
for(i=1,jk=1; i <=nlstate; i++){	for(i=1,jk=1; i <=nlstate; i++){
Line 5358 void prevforecast(char fileres[], double	Line 5589 void prevforecast(char fileres[], double
char fileresf[FILENAMELENGTH];	char fileresf[FILENAMELENGTH];

agelim=AGESUP;	agelim=AGESUP;
	/* Compute observed prevalence between dateprev1 and dateprev2 by counting the number of people
	in each health status at the date of interview (if between dateprev1 and dateprev2).
	We still use firstpass and lastpass as another selection.
	*/
prevalence(probs, ageminpar, agemax, s, agev, nlstate, imx, Tvar, nbcode, ncodemax, mint, anint, dateprev1, dateprev2, firstpass, lastpass);	prevalence(probs, ageminpar, agemax, s, agev, nlstate, imx, Tvar, nbcode, ncodemax, mint, anint, dateprev1, dateprev2, firstpass, lastpass);

strcpy(fileresf,"F_");	strcpy(fileresf,"F_");
Line 5408 void prevforecast(char fileres[], double	Line 5643 void prevforecast(char fileres[], double
for(cptcov=1, k=0;cptcov<=i1;cptcov++){	for(cptcov=1, k=0;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#****** hpijx=probability over h years, hp.jx is weighted by observed prev \n#");
for(j=1;j<=cptcoveff;j++) {	for(j=1;j<=cptcoveff;j++) {
fprintf(ficresf," V%d=%d, hpijx=probability over h years, hp.jx is weighted by observed prev ",Tvaraff[j],nbcode[Tvaraff[j]][codtabm(k,j)]);	fprintf(ficresf," V%d (=) %d",Tvaraff[j],nbcode[Tvaraff[j]][codtabm(k,j)]);
}	}
fprintf(ficresf,"******\n");	fprintf(ficresf," yearproj age");
fprintf(ficresf,"# Covariate valuofcovar yearproj age");
for(j=1; j<=nlstate+ndeath;j++){	for(j=1; j<=nlstate+ndeath;j++){
for(i=1; i<=nlstate;i++)	for(i=1; i<=nlstate;i++)
fprintf(ficresf," p%d%d",i,j);	fprintf(ficresf," p%d%d",i,j);
Line 6569 void syscompilerinfo(int logged)	Line 6803 void syscompilerinfo(int logged)

}	}

int prevalence_limit(double p, double prlim, double ageminpar, double agemaxpar, double ftolpl, int ncvyear){	int prevalence_limit(double p, double prlim, double ageminpar, double agemaxpar, double ftolpl, int ncvyearp){
/--------------- Prevalence limit (period or stable prevalence) --------------/	/--------------- Prevalence limit (period or stable prevalence) --------------/
int i, j, k, i1 ;	int i, j, k, i1 ;
/* double ftolpl = 1.e-10; */	/* double ftolpl = 1.e-10; */
Line 6625 void syscompilerinfo(int logged)	Line 6859 void syscompilerinfo(int logged)

for (age=agebase; age<=agelim; age++){	for (age=agebase; age<=agelim; age++){
/* for (age=agebase; age<=agebase; age++){ */	/* for (age=agebase; age<=agebase; age++){ */
prevalim(prlim, nlstate, p, age, oldm, savm, ftolpl, ncvyear, k);	prevalim(prlim, nlstate, p, age, oldm, savm, ftolpl, ncvyearp, k);
fprintf(ficrespl,"%.0f ",age );	fprintf(ficrespl,"%.0f ",age );
for(j=1;j<=cptcoveff;j++)	for(j=1;j<=cptcoveff;j++)
fprintf(ficrespl,"%d %d ",Tvaraff[j],nbcode[Tvaraff[j]][codtabm(k,j)]);	fprintf(ficrespl,"%d %d ",Tvaraff[j],nbcode[Tvaraff[j]][codtabm(k,j)]);
Line 6634 void syscompilerinfo(int logged)	Line 6868 void syscompilerinfo(int logged)
tot += prlim[i][i];	tot += prlim[i][i];
fprintf(ficrespl," %.5f", prlim[i][i]);	fprintf(ficrespl," %.5f", prlim[i][i]);
}	}
fprintf(ficrespl," %.3f %d\n", tot, *ncvyear);	fprintf(ficrespl," %.3f %d\n", tot, *ncvyearp);
} /* Age */	} /* Age */
/* was end of cptcod */	/* was end of cptcod */
} /* cptcov */	} /* cptcov */
Line 6727 int main(int argc, char *argv[])	Line 6961 int main(int argc, char *argv[])
#endif	#endif
int movingaverage(double *probs, double bage,double fage, double *mobaverage, int mobilav);	int movingaverage(double *probs, double bage,double fage, double *mobaverage, int mobilav);
int i,j, k, n=MAXN,iter=0,m,size=100, cptcod;	int i,j, k, n=MAXN,iter=0,m,size=100, cptcod;
int ncvyearnp=0;	int ncvyear=0; /* Number of years needed for the period prevalence to converge */
int ncvyear=&ncvyearnp; / Number of years needed for the period prevalence to converge */
int jj, ll, li, lj, lk;	int jj, ll, li, lj, lk;
int numlinepar=0; /* Current linenumber of parameter file */	int numlinepar=0; /* Current linenumber of parameter file */
int num_filled;	int num_filled;
Line 6988 int main(int argc, char *argv[])	Line 7221 int main(int argc, char *argv[])
if((num_filled=sscanf(line,"ftol=%lf stepm=%d ncovcol=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\n", \	if((num_filled=sscanf(line,"ftol=%lf stepm=%d ncovcol=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\n", \
&ftol, &stepm, &ncovcol, &nlstate, &ndeath, &maxwav, &mle, &weightopt)) !=EOF){	&ftol, &stepm, &ncovcol, &nlstate, &ndeath, &maxwav, &mle, &weightopt)) !=EOF){
if (num_filled != 8) {	if (num_filled != 8) {
printf("Not 8\n");	printf("Not 8 parameters, for example:ftol=1.e-8 stepm=12 ncovcol=2 nlstate=2 ndeath=1 maxwav=3 mle=1 weight=1\n");
	printf("but line=%s\n",line);
}	}
printf("ftol=%e stepm=%d ncovcol=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\n",ftol, stepm, ncovcol, nlstate,ndeath, maxwav, mle, weightopt);	printf("ftol=%e stepm=%d ncovcol=%d nlstate=%d ndeath=%d maxwav=%d mle=%d weight=%d\n",ftol, stepm, ncovcol, nlstate,ndeath, maxwav, mle, weightopt);
}	}
/* ftolpl=6ftol1.e5; /\* 6.e-3 make convergences in less than 80 loops for the prevalence limit \/ /	/* ftolpl=6ftol1.e5; /\* 6.e-3 make convergences in less than 80 loops for the prevalence limit \/ /
ftolpl=6.e-3; /* 6.e-3 make convergences in less than 80 loops for the prevalence limit */	/ftolpl=6.e-4; //* 6.e-3 make convergences in less than 80 loops for the prevalence limit */
/* Third parameter line */	/* Third parameter line */
while(fgets(line, MAXLINE, ficpar)) {	while(fgets(line, MAXLINE, ficpar)) {
/* If line starts with a # it is a comment */	/* If line starts with a # it is a comment */
Line 7362 Please run with mle=-1 to get a correct	Line 7596 Please run with mle=-1 to get a correct
Ndum =ivector(-1,NCOVMAX);	Ndum =ivector(-1,NCOVMAX);
if (ncovmodel-nagesqr > 2 ) /* That is if covariate other than cst, age and ageage /	if (ncovmodel-nagesqr > 2 ) /* That is if covariate other than cst, age and ageage /
tricode(Tvar,nbcode,imx, Ndum); /*< Fills nbcode[Tvar[j]][l]; /	tricode(Tvar,nbcode,imx, Ndum); /*< Fills nbcode[Tvar[j]][l]; /
/* Nbcode gives the value of the lth modality of jth covariate, in	/* Nbcode gives the value of the lth modality (currently 1 to 2) of jth covariate, in
V2+V1age, there are 3 covariates Tvar[2]=1 (V1)./	V2+V1age, there are 3 covariates Tvar[2]=1 (V1)./
/* 1 to ncodemax[j] is the maximum value of this jth covariate */	/* 1 to ncodemax[j] which is the maximum value of this jth covariate */

/* codtab=imatrix(1,100,1,10);/ / codtab[h,k]=( (h-1) - mod(k-1,2(k-1) )/2(k-1) */	/* codtab=imatrix(1,100,1,10);/ / codtab[h,k]=( (h-1) - mod(k-1,2(k-1) )/2(k-1) */
/printf(" codtab[1,1],codtab[100,10]=%d,%d\n", codtab[1][1],codtabm(100,10));/	/printf(" codtab[1,1],codtab[100,10]=%d,%d\n", codtab[1][1],codtabm(100,10));/
/* codtab gives the value 1 or 2 of the hth combination of k covariates (1 or 2).*/	/* codtab gives the value 1 or 2 of the hth combination of k covariates (1 or 2).*/
	/* nbcode[Tvaraff[j]][codtabm(h,j)]) : if there are only 2 modalities for a covariate j,
	* codtabm(h,j) gives its value classified at position h and nbcode gives how it is coded
	* (currently 0 or 1) in the data.
	* In a loop on h=1 to 2**k, and a loop on j (=1 to k), we get the value of
	* corresponding modality (h,j).
	*/

h=0;	h=0;


Line 7378 Please run with mle=-1 to get a correct	Line 7619 Please run with mle=-1 to get a correct
m=pow(2,cptcoveff);	m=pow(2,cptcoveff);

/< codtab(h,k) k = codtab[h,k]=( (h-1) - mod(k-1,2(k-1) )/2**(k-1) + 1	/< codtab(h,k) k = codtab[h,k]=( (h-1) - mod(k-1,2(k-1) )/2**(k-1) + 1
* For k=4 covariates, h goes from 1 to 2**k	* For k=4 covariates, h goes from 1 to m=2**k
* codtabm(h,k)= 1 & (h-1) >> (k-1) ;	* codtabm(h,k)= (1 & (h-1) >> (k-1)) + 1;
	* #define codtabm(h,k) (1 & (h-1) >> (k-1))+1
* h\k 1 2 3 4	* h\k 1 2 3 4
*______________________________	*______________________________
* 1 i=1 1 i=1 1 i=1 1 i=1 1	* 1 i=1 1 i=1 1 i=1 1 i=1 1
Line 7399 Please run with mle=-1 to get a correct	Line 7641 Please run with mle=-1 to get a correct
* 15 i=8 1 2 2 2	* 15 i=8 1 2 2 2
* 16 2 2 2 2	* 16 2 2 2 2
*/	*/
	/* How to do the opposite? From combination h (=1 to 2*k) how to get the value on the covariates? /
	/* from h=5 and m, we get then number of covariates k=log(m)/log(2)=4
	* and the value of each covariate?
	* V1=1, V2=1, V3=2, V4=1 ?
	* h-1=4 and 4 is 0100 or reverse 0010, and +1 is 1121 ok.
	* h=6, 6-1=5, 5 is 0101, 1010, 2121, V1=2nd, V2=1st, V3=2nd, V4=1st.
	* In order to get the real value in the data, we use nbcode
	* nbcode[Tvar[3][2nd]]=1 and nbcode[Tvar[4][1]]=0
	* We are keeping this crazy system in order to be able (in the future?)
	* to have more than 2 values (0 or 1) for a covariate.
	* #define codtabm(h,k) (1 & (h-1) >> (k-1))+1
	* h=6, k=2? h-1=5=0101, reverse 1010, +1=2121, k=2nd position: value is 1: codtabm(6,2)=1
	* bbbbbbbb
	* 76543210
	* h-1 00000101 (6-1=5)
	*(h-1)>>(k-1)= 00000001 >> (2-1) = 1 right shift
	* &
	* 1 00000001 (1)
	* 00000001 = 1 & ((h-1) >> (k-1))
	* +1= 00000010 =2
	*
	* h=14, k=3 => h'=h-1=13, k'=k-1=2
	* h' 1101 =2^3+2^2+0x2^1+2^0
	* >>k' 11
	* & 00000001
	* = 00000001
	* +1 = 00000010=2 = codtabm(14,3)
	* Reverse h=6 and m=16?
	* cptcoveff=log(16)/log(2)=4 covariate: 6-1=5=0101 reversed=1010 +1=2121 =>V1=2, V2=1, V3=2, V4=1.
	* for (j=1 to cptcoveff) Vj=decodtabm(j,h,cptcoveff)
	* decodtabm(h,j,cptcoveff)= (((h-1) >> (j-1)) & 1) +1
	* decodtabm(h,j,cptcoveff)= (h <= (1<<cptcoveff)?(((h-1) >> (j-1)) & 1) +1 : -1)
	* V3=decodtabm(14,3,2**4)=2
	* h'=13 1101 =2^3+2^2+0x2^1+2^0
	*(h-1) >> (j-1) 0011 =13 >> 2
	* &1 000000001
	* = 000000001
	* +1= 000000010 =2
	* 2211
	* V1=1+1, V2=0+1, V3=1+1, V4=1+1
	* V3=2
	*/

/* /\* for(h=1; h <=100 ;h++){ \/ /	/* /\* for(h=1; h <=100 ;h++){ \/ /
/* /\* printf("h=%2d ", h); \/ /	/* /\* printf("h=%2d ", h); \/ /
/* /\* for(k=1; k <=10; k++){ \/ /	/* /\* for(k=1; k <=10; k++){ \/ /
Line 7477 Title=%s <br>Datafile=%s Firstpass=%d La	Line 7762 Title=%s <br>Datafile=%s Firstpass=%d La
optionfilehtmcov,version,fullversion,title,datafile,firstpass,lastpass,stepm, weightopt, model);	optionfilehtmcov,version,fullversion,title,datafile,firstpass,lastpass,stepm, weightopt, model);
}	}

fprintf(fichtm,"<html><head>\n<head>\n<meta charset=\"utf-8\"/><meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n<title>IMaCh %s</title></head>\n <body><font size=\"7\"><a href=http:/euroreves.ined.fr/imach>IMaCh for Interpolated Markov Chain</a> </font><br>\n<font size=\"3\">Sponsored by Copyright (C) 2002-2015 <a href=http://www.ined.fr>INED</a>-EUROREVES-Institut de longévité-Japan Society for the Promotion of Sciences 日本学術振興会 (<a href=https://www.jsps.go.jp/english/e-grants/>Grant-in-Aid for Scientific Research 25293121</a>) - <a href=https://software.intel.com/en-us>Intel Software 2015</a></font><br> \	fprintf(fichtm,"<html><head>\n<head>\n<meta charset=\"utf-8\"/><meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n<title>IMaCh %s</title></head>\n <body><font size=\"7\"><a href=http:/euroreves.ined.fr/imach>IMaCh for Interpolated Markov Chain</a> </font><br>\n<font size=\"3\">Sponsored by Copyright (C) 2002-2015 <a href=http://www.ined.fr>INED</a>-EUROREVES-Institut de longévité-2013-2016-Japan Society for the Promotion of Sciences 日本学術振興会 (<a href=https://www.jsps.go.jp/english/e-grants/>Grant-in-Aid for Scientific Research 25293121</a>) - <a href=https://software.intel.com/en-us>Intel Software 2015-2018</a></font><br> \
<hr size=\"2\" color=\"#EC5E5E\"> \n\	<hr size=\"2\" color=\"#EC5E5E\"> \n\
<font size=\"2\">IMaCh-%s <br> %s</font> \	<font size=\"2\">IMaCh-%s <br> %s</font> \
<hr size=\"2\" color=\"#EC5E5E\"> \n\	<hr size=\"2\" color=\"#EC5E5E\"> \n\
Line 7929 Please run with mle=-1 to get a correct	Line 8214 Please run with mle=-1 to get a correct

fflush(ficlog);	fflush(ficlog);
fflush(ficres);	fflush(ficres);
	while(fgets(line, MAXLINE, ficpar)) {
while((c=getc(ficpar))=='#' && c!= EOF){	/* If line starts with a # it is a comment */
ungetc(c,ficpar);	if (line[0] == '#') {
fgets(line, MAXLINE, ficpar);	numlinepar++;
fputs(line,stdout);	fputs(line,stdout);
fputs(line,ficparo);	fputs(line,ficparo);
}	fputs(line,ficlog);
ungetc(c,ficpar);	continue;
	}else
	break;
	}

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

estepm=0;	estepm=0;
fscanf(ficpar,"agemin=%lf agemax=%lf bage=%lf fage=%lf estepm=%d\n",&ageminpar,&agemaxpar, &bage, &fage, &estepm);	if((num_filled=sscanf(line,"agemin=%lf agemax=%lf bage=%lf fage=%lf estepm=%d ftolpl=%lf\n",&ageminpar,&agemaxpar, &bage, &fage, &estepm, &ftolpl)) !=EOF){

	if (num_filled != 6) {
	printf("Not 6 parameters in line, for example:agemin=60 agemax=95 bage=55 fage=95 estepm=24 ftolpl=6e-4\n");
	printf("but line=%s\n",line);
	goto end;
	}
	printf("agemin=%lf agemax=%lf bage=%lf fage=%lf estepm=%d ftolpl=%lf\n",ageminpar,agemaxpar, bage, fage, estepm, ftolpl);
	}
	/* ftolpl=6ftol1.e5; /\* 6.e-3 make convergences in less than 80 loops for the prevalence limit \/ /
	/ftolpl=6.e-4;/ /* 6.e-3 make convergences in less than 80 loops for the prevalence limit */

	/* fscanf(ficpar,"agemin=%lf agemax=%lf bage=%lf fage=%lf estepm=%d ftolpl=%\n",&ageminpar,&agemaxpar, &bage, &fage, &estepm); */
if (estepm==0 \|\| estepm < stepm) estepm=stepm;	if (estepm==0 \|\| estepm < stepm) estepm=stepm;
if (fage <= 2) {	if (fage <= 2) {
bage = ageminpar;	bage = ageminpar;
Line 7947 Please run with mle=-1 to get a correct	Line 8255 Please run with mle=-1 to get a correct
}	}

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 estepm=%d\n",ageminpar,agemaxpar,bage,fage, estepm);	fprintf(ficres,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f estepm=%d ftolpl=%e\n",ageminpar,agemaxpar,bage,fage, estepm, ftolpl);
fprintf(ficparo,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f estepm=%d\n",ageminpar,agemaxpar,bage,fage, estepm);	fprintf(ficparo,"agemin=%.0f agemax=%.0f bage=%.0f fage=%.0f estepm=%d, ftolpl=%e\n",ageminpar,agemaxpar,bage,fage, estepm, ftolpl);

/* Other stuffs, more or less useful */	/* Other stuffs, more or less useful */
while((c=getc(ficpar))=='#' && c!= EOF){	while((c=getc(ficpar))=='#' && c!= EOF){
Line 8011 Please run with mle=-1 to get a correct	Line 8319 Please run with mle=-1 to get a correct
This is probably because your parameter file doesn't \n contain the exact number of lines (or columns) corresponding to your model line.\n\	This is probably because your parameter file doesn't \n contain the exact number of lines (or columns) corresponding to your model line.\n\
Please run with mle=-1 to get a correct covariance matrix.\n",ageminpar,agemaxpar);	Please run with mle=-1 to get a correct covariance matrix.\n",ageminpar,agemaxpar);
}else	}else
printinggnuplot(fileresu, optionfilefiname,ageminpar,agemaxpar,fage, pathc,p);	printinggnuplot(fileresu, optionfilefiname,ageminpar,agemaxpar,fage, prevfcast, pathc,p);

printinghtml(fileresu,title,datafile, firstpass, lastpass, stepm, weightopt,\	printinghtml(fileresu,title,datafile, firstpass, lastpass, stepm, weightopt,\
model,imx,jmin,jmax,jmean,rfileres,popforecast,estepm,\	model,imx,jmin,jmax,jmean,rfileres,popforecast,prevfcast,estepm, \
jprev1,mprev1,anprev1,jprev2,mprev2,anprev2);	jprev1,mprev1,anprev1,dateprev1,jprev2,mprev2,anprev2,dateprev2);

/------------ free_vector -------------/	/------------ free_vector -------------/
/* chdir(path); */	/* chdir(path); */
Line 8038 Please run with mle=-1 to get a correct	Line 8346 Please run with mle=-1 to get a correct
/--------------- Prevalence limit (period or stable prevalence) --------------/	/--------------- Prevalence limit (period or stable prevalence) --------------/
/#include "prevlim.h"/ /* Use ficrespl, ficlog */	/#include "prevlim.h"/ /* Use ficrespl, ficlog */
prlim=matrix(1,nlstate,1,nlstate);	prlim=matrix(1,nlstate,1,nlstate);
prevalence_limit(p, prlim, ageminpar, agemaxpar, ftolpl, ncvyear);	prevalence_limit(p, prlim, ageminpar, agemaxpar, ftolpl, &ncvyear);
fclose(ficrespl);	fclose(ficrespl);

#ifdef FREEEXIT2	#ifdef FREEEXIT2
Line 8208 Please run with mle=-1 to get a correct	Line 8516 Please run with mle=-1 to get a correct
cptcod= 0; /* To be deleted */	cptcod= 0; /* To be deleted */
printf("varevsij %d \n",vpopbased);	printf("varevsij %d \n",vpopbased);
fprintf(ficlog, "varevsij %d \n",vpopbased);	fprintf(ficlog, "varevsij %d \n",vpopbased);
varevsij(optionfilefiname, vareij, matcov, p, delti, nlstate, stepm, (int) bage, (int) fage, oldm, savm, prlim, ftolpl, ncvyear, k, estepm, cptcov,cptcod,vpopbased,mobilav, strstart); /* cptcod not initialized Intel */	varevsij(optionfilefiname, vareij, matcov, p, delti, nlstate, stepm, (int) bage, (int) fage, oldm, savm, prlim, ftolpl, &ncvyear, k, estepm, cptcov,cptcod,vpopbased,mobilav, strstart); /* cptcod not initialized Intel */
fprintf(ficrest,"# Total life expectancy with std error and decomposition into time to be expected in each health state\n# (weighted average of eij where weights are ");	fprintf(ficrest,"# Total life expectancy with std error and decomposition into time to be expected in each health state\n# (weighted average of eij where weights are ");
if(vpopbased==1)	if(vpopbased==1)
fprintf(ficrest,"the age specific prevalence observed (cross-sectionally) in the population i.e cross-sectionally\n in each health state (popbased=1) (mobilav=%d)\n",mobilav);	fprintf(ficrest,"the age specific prevalence observed (cross-sectionally) in the population i.e cross-sectionally\n in each health state (popbased=1) (mobilav=%d)\n",mobilav);
Line 8222 Please run with mle=-1 to get a correct	Line 8530 Please run with mle=-1 to get a correct
printf("Computing age specific period (stable) prevalences in each health state \n");	printf("Computing age specific period (stable) prevalences in each health state \n");
fprintf(ficlog,"Computing age specific period (stable) prevalences in each health state \n");	fprintf(ficlog,"Computing age specific period (stable) prevalences in each health state \n");
for(age=bage; age <=fage ;age++){	for(age=bage; age <=fage ;age++){
prevalim(prlim, nlstate, p, age, oldm, savm, ftolpl, ncvyear, k); /ZZ Is it the correct prevalim /	prevalim(prlim, nlstate, p, age, oldm, savm, ftolpl, &ncvyear, k); /ZZ Is it the correct prevalim /
if (vpopbased==1) {	if (vpopbased==1) {
if(mobilav ==0){	if(mobilav ==0){
for(i=1; i<=nlstate;i++)	for(i=1; i<=nlstate;i++)
Line 8301 Please run with mle=-1 to get a correct	Line 8609 Please run with mle=-1 to get a correct

varpl=matrix(1,nlstate,(int) bage, (int) fage);	varpl=matrix(1,nlstate,(int) bage, (int) fage);
oldm=oldms;savm=savms;	oldm=oldms;savm=savms;
varprevlim(fileres, varpl, matcov, p, delti, nlstate, stepm, (int) bage, (int) fage, oldm, savm, prlim, ftolpl, ncvyear, k, strstart);	varprevlim(fileres, varpl, matcov, p, delti, nlstate, stepm, (int) bage, (int) fage, oldm, savm, prlim, ftolpl, &ncvyear, k, strstart);
free_matrix(varpl,1,nlstate,(int) bage, (int)fage);	free_matrix(varpl,1,nlstate,(int) bage, (int)fage);
/}/	/}/
}	}

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

Removed from v.1.208
changed lines
	Added in v.1.213