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Diff for /imach/src/imach.c between versions 1.342 and 1.343

version 1.342, 2022/09/11 19:54:09	version 1.343, 2022/09/14 14:22:16
Line 1	Line 1
/* $Id$	/* $Id$
$State$	$State$
$Log$	$Log$
	Revision 1.343 2022/09/14 14:22:16 brouard
	Summary: version 0.99r39

	* imach.c (Module): Version 0.99r39 with colored dummy covariates
	(fixed or time varying), using new last columns of
	ILK_parameter.txt file.

Revision 1.342 2022/09/11 19:54:09 brouard	Revision 1.342 2022/09/11 19:54:09 brouard
Summary: 0.99r38	Summary: 0.99r38

Line 1294 typedef struct {	Line 1301 typedef struct {
#define MAXLINE 2048 /* Was 256 and 1024. Overflow with 312 with 2 states and 4 covariates. Should be ok */	#define MAXLINE 2048 /* Was 256 and 1024. Overflow with 312 with 2 states and 4 covariates. Should be ok */

#define GNUPLOTPROGRAM "gnuplot"	#define GNUPLOTPROGRAM "gnuplot"
	#define GNUPLOTVERSION 5.1
	double gnuplotversion=GNUPLOTVERSION;
/#define GNUPLOTPROGRAM "..\\gp37mgw\\wgnuplot"/	/#define GNUPLOTPROGRAM "..\\gp37mgw\\wgnuplot"/
#define FILENAMELENGTH 256	#define FILENAMELENGTH 256

Line 1543 int *nbcode, Tvar; /**< model=V2 => Tv	Line 1552 int *nbcode, Tvar; /**< model=V2 => Tv
# States 1=Coresidence, 2 Living alone, 3 Institution	# States 1=Coresidence, 2 Living alone, 3 Institution
# V1=sex, V2=raedyrs Quant Fixed, State=livarnb4..livarnb11, V3=iadl4..iald11, V4=adlw4..adlw11, V5=r4bmi..r11bmi	# V1=sex, V2=raedyrs Quant Fixed, State=livarnb4..livarnb11, V3=iadl4..iald11, V4=adlw4..adlw11, V5=r4bmi..r11bmi
*/	*/
/* V5+V4+V3+V4V3+V5age+V2+V1V2+V1age+V1 */	/* V5+V4+ V3+V4V3 +V5age+V2 +V1V2+V1age+V1 */
/* k 1 2 3 4 5 6 7 8 9 */	/* kmodel 1 2 3 4 5 6 7 8 9 */
/Typevar[k]= 0 0 0 2 1 0 2 1 0 //0 for simple covariate (dummy, quantitative,/	/Typevar[k]= 0 0 0 2 1 0 2 1 0 //0 for simple covariate (dummy, quantitative,/
/* fixed or varying), 1 for age product, 2 for*/	/* fixed or varying), 1 for age product, 2 for*/
/* product */	/* product */
Line 4227 double func( double *x)	Line 4236 double func( double *x)
ipmx +=1;	ipmx +=1;
sw += weight[i];	sw += weight[i];
ll[s[mw[mi][i]][i]] += 2weight[i]lli;	ll[s[mw[mi][i]][i]] += 2weight[i]lli;
/* printf("i=%6d s1=%1d s2=%1d mi=%1d mw=%1d dh=%3d prob=%10.6f w=%6.4f out=%10.6f sav=%10.6f\n",i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],out[s1][s2],savm[s1][s2]); */	/* printf("num[i]=%09ld, i=%6d s1=%1d s2=%1d mi=%1d mw=%1d dh=%3d prob=%10.6f w=%6.4f out=%10.6f sav=%10.6f\n",num[i],i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2])); */
} /* end of wave */	} /* end of wave */
} /* end of individual */	} /* end of individual */
}else{ /* ml=5 no inter-extrapolation no jackson =0.8a */	}else{ /* ml=5 no inter-extrapolation no jackson =0.8a */
Line 4366 double funcone( double *x)	Line 4375 double funcone( double *x)
* k= 1 2 3 4 5 6 7 8 9	* k= 1 2 3 4 5 6 7 8 9
* varying 1 2 3 4 5	* varying 1 2 3 4 5
* ncovv 1 2 3 4 5 6 7 8	* ncovv 1 2 3 4 5 6 7 8
* TvarVV V3 5 1 3 3 5 1 5	* TvarVV[ncovv] V3 5 1 3 3 5 1 5
* TvarVVind 2 3 7 7 8 8 9 9	* TvarVVind 2 3 7 7 8 8 9 9
* TvarFind[k] 1 0 0 0 0 0 0 0 0	* TvarFind[k] 1 0 0 0 0 0 0 0 0
* cotvar starts at ntv=2 (because of V3 V4)
*/	*/
for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /* Varying covariates (single and product but no age) including individual from products */	for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /* Varying covariates (single and product but no age) including individual from products */
itv=TvarVV[ncovv]; /* TvarVV={3, 1, 3} gives the name of each varying covariate */	itv=TvarVV[ncovv]; /* TvarVV={3, 1, 3} gives the name of each varying covariate */
Line 4484 double funcone( double *x)	Line 4492 double funcone( double *x)
sw += weight[i];	sw += weight[i];
ll[s[mw[mi][i]][i]] += 2weight[i]lli;	ll[s[mw[mi][i]][i]] += 2weight[i]lli;
/* Printing covariates values for each contribution for checking */	/* Printing covariates values for each contribution for checking */
/* printf(" s1=%1d s2=%1d mi=%1d mw=%1d dh=%3d prob=%10.6f w=%6.4f out=%10.6f sav=%10.6f\n",s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2])); */	/* printf("num[i]=%09ld, i=%6d s1=%1d s2=%1d mi=%1d mw=%1d dh=%3d prob=%10.6f w=%6.4f out=%10.6f sav=%10.6f\n",num[i],i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2])); */
if(globpr){	if(globpr){
fprintf(ficresilk,"%09ld %6.1f %6.1f %6d %2d %2d %2d %2d %3d %15.6f %8.4f %8.3f\	fprintf(ficresilk,"%09ld %6.1f %6.1f %6d %2d %2d %2d %2d %3d %15.6f %8.4f %8.3f\
%11.6f %11.6f %11.6f ", \	%11.6f %11.6f %11.6f ", \
num[i], agebegin, ageend, i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],weight[i]*gipmx/gsw,	num[i], agebegin, ageend, i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],weight[i]*gipmx/gsw,
2weight[i]lli,(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2]));	2weight[i]lli,(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2]));
/* printf("%09ld %6.1f %6.1f %6d %2d %2d %2d %2d %3d %15.6f %8.4f %8.3f\ */	/* printf("%09ld %6.1f %6.1f %6d %2d %2d %2d %2d %3d %15.6f %8.4f %8.3f\ */
/* %11.6f %11.6f %11.6f ", \ */	/* %11.6f %11.6f %11.6f ", \ */
/* num[i], agebegin, ageend, i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],weight[i]gipmx/gsw, /	/* num[i], agebegin, ageend, i,s1,s2,mi,mw[mi][i],dh[mi][i],exp(lli),weight[i],weight[i]gipmx/gsw, /
/* 2weight[i]lli,(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2])); */	/* 2weight[i]lli,(s2==-1? -1: out[s1][s2]),(s2==-1? -1: savm[s1][s2])); */
for(k=1,llt=0.,l=0.; k<=nlstate; k++){	for(k=1,llt=0.,l=0.; k<=nlstate; k++){
llt +=ll[k]*gipmx/gsw;	llt +=ll[k]*gipmx/gsw;
fprintf(ficresilk," %10.6f",-ll[k]*gipmx/gsw);	fprintf(ficresilk," %10.6f",-ll[k]*gipmx/gsw);
/* printf(" %10.6f",-ll[k]gipmx/gsw); /	/* printf(" %10.6f",-ll[k]gipmx/gsw); /
}	}
fprintf(ficresilk," %10.6f", -llt);	fprintf(ficresilk," %10.6f ", -llt);
/* printf(" %10.6f\n", -llt); */	/* printf(" %10.6f\n", -llt); */
/* if(debugILK){ /\* debugILK is set by a #d in a comment line \/ /	/* if(debugILK){ /\* debugILK is set by a #d in a comment line \/ /
fprintf(ficresilk,"%09ld ", num[i]);	/* fprintf(ficresilk,"%09ld ", num[i]); / / not necessary */
for (kf=1; kf<=ncovf;kf++){ /* Simple and product fixed covariates without age* products // Missing values are set to -1 but should be dropped */	for (kf=1; kf<=ncovf;kf++){ /* Simple and product fixed covariates without age* products // Missing values are set to -1 but should be dropped */
fprintf(ficresilk," %g",covar[Tvar[TvarFind[kf]]][i]);	fprintf(ficresilk," %g",covar[Tvar[TvarFind[kf]]][i]);
}	}
for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /* Varying covariates (single and product but no age) including individual from products */	for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /* Varying covariates (single and product but no age) including individual from products */
ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate*/	ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate*/
if(ipos!=iposold){ /* Not a product or first of a product */	if(ipos!=iposold){ /* Not a product or first of a product */
fprintf(ficresilk," %g",cov[ioffset+ipos]);	fprintf(ficresilk," %g",cov[ioffset+ipos]);
/* printf(" %g",cov[ioffset+ipos]); */	/* printf(" %g",cov[ioffset+ipos]); */
}else{	}else{
fprintf(ficresilk,"*");	fprintf(ficresilk,"*");
/* printf(""); /	/* printf(""); /
}
iposold=ipos;
}	}
for (kk=1; kk<=cptcovage;kk++) {	iposold=ipos;
if(!FixedV[Tvar[Tage[kk]]]){	}
fprintf(ficresilk," %g*age",covar[Tvar[Tage[kk]]][i]);	for (kk=1; kk<=cptcovage;kk++) {
/* printf(" %gage",covar[Tvar[Tage[kk]]][i]); /	if(!FixedV[Tvar[Tage[kk]]]){
}else{	fprintf(ficresilk," %g*age",covar[Tvar[Tage[kk]]][i]);
fprintf(ficresilk," %gage",cotvar[mw[mi][i]][Tvar[Tage[kk]]][i]);/ because cotvar starts now at first ncovcol+nqv+ (1 to nqtv) */	/* printf(" %gage",covar[Tvar[Tage[kk]]][i]); /
/* printf(" %gage",cotvar[mw[mi][i]][Tvar[Tage[kk]]][i]);/\ because cotvar starts now at first ncovcol+nqv+ (1 to nqtv) \/ /	}else{
}	fprintf(ficresilk," %gage",cotvar[mw[mi][i]][Tvar[Tage[kk]]][i]);/ because cotvar starts now at first ncovcol+nqv+ (1 to nqtv) */
	/* printf(" %gage",cotvar[mw[mi][i]][Tvar[Tage[kk]]][i]);/\ because cotvar starts now at first ncovcol+nqv+ (1 to nqtv) \/ /
}	}
/* printf("\n"); */	}
	/* printf("\n"); */
/* } /\* End debugILK \/ /	/* } /\* End debugILK \/ /
fprintf(ficresilk,"\n");	fprintf(ficresilk,"\n");
} /* End if globpr */	} /* End if globpr */
Line 4539 double funcone( double *x)	Line 4547 double funcone( double *x)
gipmx=ipmx;	gipmx=ipmx;
gsw=sw;	gsw=sw;
}	}
return -l;	return -l;
}	}


Line 4552 void likelione(FILE *ficres,double p[],	Line 4560 void likelione(FILE *ficres,double p[],
Plotting could be done.	Plotting could be done.
*/	*/
void pstamp(FILE *ficres);	void pstamp(FILE *ficres);
int k, kf, kk, ncovv, iposold, ipos;	int k, kf, kk, kvar, ncovv, iposold, ipos;

if(globpri !=0){ / Just counts and sums, no printings */	if(globpri !=0){ / Just counts and sums, no printings */
strcpy(fileresilk,"ILK_");	strcpy(fileresilk,"ILK_");
Line 4575 void likelione(FILE *ficres,double p[],	Line 4583 void likelione(FILE *ficres,double p[],
/* printf("V%d",Tvar[TvarFind[kf]]); */	/* printf("V%d",Tvar[TvarFind[kf]]); */
}	}
for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){	for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){
ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate*/	ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate */
if(ipos!=iposold){ /* Not a product or first of a product */	if(ipos!=iposold){ /* Not a product or first of a product */
/* printf(" %d",ipos); */	/* printf(" %d",ipos); */
fprintf(ficresilk," V%d",TvarVV[ncovv]);	fprintf(ficresilk," V%d",TvarVV[ncovv]);
}else{	}else{
/* printf(""); /	/* printf(""); /
fprintf(ficresilk,"*");	fprintf(ficresilk,"*");
}	}
iposold=ipos;	iposold=ipos;
}	}
for (kk=1; kk<=cptcovage;kk++) {	for (kk=1; kk<=cptcovage;kk++) {
Line 4609 void likelione(FILE *ficres,double p[],	Line 4617 void likelione(FILE *ficres,double p[],
fprintf(fichtm," You should at least run with mle >= 1 to get starting values corresponding to the optimized parameters in order to visualize the real contribution of each individual/wave: <a href=\"%s\">%s</a><br>\n",subdirf(fileresilk),subdirf(fileresilk));	fprintf(fichtm," You should at least run with mle >= 1 to get starting values corresponding to the optimized parameters in order to visualize the real contribution of each individual/wave: <a href=\"%s\">%s</a><br>\n",subdirf(fileresilk),subdirf(fileresilk));
fprintf(fichtm,"\n<br>Equation of the model: <b>model=1+age+%s</b><br>\n",model);	fprintf(fichtm,"\n<br>Equation of the model: <b>model=1+age+%s</b><br>\n",model);

for (k=1; k<= nlstate ; k++) {
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);
}
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> \
<img src=\"%s-ori.png\">",subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"));	<img src=\"%s-ori.png\">\n",subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"));
fprintf(fichtm,"<br>- and by state of destination <a href=\"%s-dest.png\">%s-dest.png</a><br> \	fprintf(fichtm,"<br>- and by state of destination <a href=\"%s-dest.png\">%s-dest.png</a><br> \
<img src=\"%s-dest.png\">",subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"));	<img src=\"%s-dest.png\">\n",subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"),subdirf2(optionfilefiname,"ILK_"));

	for (k=1; k<= nlstate ; k++) {
	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>\n \
	<img src=\"%s-p%dj.png\">\n",k,k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k);
	for(kf=1; kf <= ncovf; kf++){ /* For each simple dummy covariate of the model */
	/* kvar=Tvar[TvarFind[kf]]; / / variable */
	fprintf(fichtm,"<br>- Probability p<sub>%dj</sub> by origin %d and destination j with colored covariate V%d. Same dot size of all points but with a different color for transitions with dummy variable V%d=1 at beginning of transition (keeping former color for V%d=0): <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \
	<img src=\"%s-p%dj-%d.png\">",k,k,Tvar[TvarFind[kf]],Tvar[TvarFind[kf]],Tvar[TvarFind[kf]],subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,Tvar[TvarFind[kf]]);
	}
	for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /* Loop on the time varying extended covariates (with extension of VnVm /
	ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate */
	kvar=TvarVV[ncovv]; /* TvarVV={3, 1, 3} gives the name of each varying covariate */
	/* printf("DebugILK fichtm ncovv=%d, kvar=TvarVV[ncovv]=V%d, ipos=TvarVVind[ncovv]=%d, Dummy[ipos]=%d, Typevar[ipos]=%d\n", ncovv,kvar,ipos,Dummy[ipos],Typevar[ipos]); */
	if(ipos!=iposold){ /* Not a product or first of a product */
	/* fprintf(ficresilk," V%d",TvarVV[ncovv]); */
	/* printf(" DebugILK fichtm ipos=%d != iposold=%d\n", ipos, iposold); */
	if(Dummy[ipos]==0 && Typevar[ipos]==0){ /* Only if dummy time varying: Dummy(0, 1=quant singor prod without age,2 dummyage, 3quantage) Typevar (0 single, 1=age,2=Vnvm) */
	fprintf(fichtm,"<br>- Probability p<sub>%dj</sub> by origin %d and destination j with colored time varying dummy covariate V%d. Same dot size of all points but with a different color for transitions with dummy variable V%d=1 at beginning of transition (keeping former color for V%d=0): <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \
	<img src=\"%s-p%dj-%d.png\">",k,k,kvar,kvar,kvar,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,kvar);
	} /* End only for dummies time varying (single?) */
	}else{ /* Useless product */
	/* printf(""); /
	/* fprintf(ficresilk,""); /
	}
	iposold=ipos;
	} /* For each time varying covariate */
	} /* End loop on states */

	/* if(debugILK){ */
	/* for(kf=1; kf <= ncovf; kf++){ /\* For each simple dummy covariate of the model \/ /
	/* /\* kvar=Tvar[TvarFind[kf]]; \/ /\ variable \/ /
	/* for (k=1; k<= nlstate ; k++) { */
	/* fprintf(fichtm,"<br>- Probability p<sub>%dj</sub> by origin %d and destination j with colored covariate V%. Same dot size of all points but with a different color for transitions with dummy variable V%d=1 at beginning of transition (keeping former color for V%d=0): <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \ */
	/* <img src=\"%s-p%dj-%d.png\">",k,k,Tvar[TvarFind[kf]],Tvar[TvarFind[kf]],Tvar[TvarFind[kf]],subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,Tvar[TvarFind[kf]]); */
	/* } */
	/* } */
	/* for(ncovv=1, iposold=0; ncovv <= ncovvt ; ncovv++){ /\* Loop on the time varying extended covariates (with extension of VnVm \/ */
	/* ipos=TvarVVind[ncovv]; /\* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate \/ /
	/* kvar=TvarVV[ncovv]; /\* TvarVV={3, 1, 3} gives the name of each varying covariate \/ /
	/* /\* printf("DebugILK fichtm ncovv=%d, kvar=TvarVV[ncovv]=V%d, ipos=TvarVVind[ncovv]=%d, Dummy[ipos]=%d, Typevar[ipos]=%d\n", ncovv,kvar,ipos,Dummy[ipos],Typevar[ipos]); \/ /
	/* if(ipos!=iposold){ /\* Not a product or first of a product \/ /
	/* /\* fprintf(ficresilk," V%d",TvarVV[ncovv]); \/ /
	/* /\* printf(" DebugILK fichtm ipos=%d != iposold=%d\n", ipos, iposold); \/ /
	/* if(Dummy[ipos]==0 && Typevar[ipos]==0){ /\* Only if dummy time varying: Dummy(0, 1=quant singor prod without age,2 dummyage, 3quantage) Typevar (0 single, 1=age,2=Vnvm) \/ /
	/* for (k=1; k<= nlstate ; k++) { */
	/* fprintf(fichtm,"<br>- Probability p<sub>%dj</sub> by origin %d and destination j. Same dot size of all points but with a different color for transitions with dummy variable V%d=1 at beginning of transition (keeping former color for V%d=0): <a href=\"%s-p%dj.png\">%s-p%dj.png</a><br> \ */
	/* <img src=\"%s-p%dj-%d.png\">",k,k,kvar,kvar,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,subdirf2(optionfilefiname,"ILK_"),k,kvar); */
	/* } /\* End state \/ /
	/* } /\* End only for dummies time varying (single?) \/ /
	/* }else{ /\* Useless product \/ /
	/* /\* printf(""); \/ */
	/* /\* fprintf(ficresilk,""); \/ */
	/* } */
	/* iposold=ipos; */
	/* } /\* For each time varying covariate \/ /
	/* }/\* End debugILK \/ /
fflush(fichtm);	fflush(fichtm);
}	}/* End globpri */
return;	return;
}	}

Line 6187 void concatwav(int wav[], int **dh, int	Line 6247 void concatwav(int wav[], int **dh, int
/* Loop on covariates without age and products and no quantitative variable */	/* Loop on covariates without age and products and no quantitative variable */
for (k=1; k<=cptcovt; k++) { /* cptcovt: total number of covariates of the model (2) nbocc(+)+1 = 8 excepting constant and age and ageage /	for (k=1; k<=cptcovt; k++) { /* cptcovt: total number of covariates of the model (2) nbocc(+)+1 = 8 excepting constant and age and ageage /
for (j=-1; (j < maxncov); j++) Ndum[j]=0;	for (j=-1; (j < maxncov); j++) Ndum[j]=0;
printf("Testing k=%d, cptcovt=%d\n",k, cptcovt);	/* printf("Testing k=%d, cptcovt=%d\n",k, cptcovt); */
if(Dummy[k]==0 && Typevar[k] !=1 && Typevar[k] != 2){ /* Dummy covariate and not age product nor fixed product */	if(Dummy[k]==0 && Typevar[k] !=1 && Typevar[k] != 2){ /* Dummy covariate and not age product nor fixed product */
switch(Fixed[k]) {	switch(Fixed[k]) {
case 0: /* Testing on fixed dummy covariate, simple or product of fixed */	case 0: /* Testing on fixed dummy covariate, simple or product of fixed */
Line 7401 To be simple, these graphs help to under	Line 7461 To be simple, these graphs help to under

/* Including quantitative variables of the resultline to be done */	/* Including quantitative variables of the resultline to be done */
for (z1=1; z1<=cptcovs; z1++){ /* Loop on each variable of this resultline */	for (z1=1; z1<=cptcovs; z1++){ /* Loop on each variable of this resultline */
printf("Varprob modelresult[%d][%d]=%d model=1+age+%s \n",nres, z1, modelresult[nres][z1], model);	/* printf("Varprob modelresult[%d][%d]=%d model=1+age+%s \n",nres, z1, modelresult[nres][z1], model); */
fprintf(ficlog,"Varprob modelresult[%d][%d]=%d model=1+age+%s \n",nres, z1, modelresult[nres][z1], model);	fprintf(ficlog,"Varprob modelresult[%d][%d]=%d model=1+age+%s \n",nres, z1, modelresult[nres][z1], model);
/* fprintf(ficlog,"Varprob modelresult[%d][%d]=%d model=1+age+%s resultline[%d]=%s \n",nres, z1, modelresult[nres][z1], model, nres, resultline[nres]); */	/* fprintf(ficlog,"Varprob modelresult[%d][%d]=%d model=1+age+%s resultline[%d]=%s \n",nres, z1, modelresult[nres][z1], model, nres, resultline[nres]); */
if(Dummy[modelresult[nres][z1]]==0){/* Dummy variable of the variable in position modelresult in the model corresponding to z1 in resultline */	if(Dummy[modelresult[nres][z1]]==0){/* Dummy variable of the variable in position modelresult in the model corresponding to z1 in resultline */
Line 8060 void printinggnuplot(char fileresu[], ch	Line 8120 void printinggnuplot(char fileresu[], ch

char dirfileres[132],optfileres[132];	char dirfileres[132],optfileres[132];
char gplotcondition[132], gplotlabel[132];	char gplotcondition[132], gplotlabel[132];
int cpt=0,k1=0,i=0,k=0,j=0,jk=0,k2=0,k3=0,k4=0,ij=0, ijp=0, l=0;	int cpt=0,k1=0,i=0,k=0,j=0,jk=0,k2=0,k3=0,k4=0,kf=0,kvar=0,kk=0,ipos=0,iposold=0,ij=0, ijp=0, l=0;
int lv=0, vlv=0, kl=0;	int lv=0, vlv=0, kl=0;
int ng=0;	int ng=0;
int vpopbased;	int vpopbased;
Line 8086 void printinggnuplot(char fileresu[], ch	Line 8146 void printinggnuplot(char fileresu[], ch
fprintf(ficgp,"yoff=(%d > 2? 0:1);\n",nlstate);	fprintf(ficgp,"yoff=(%d > 2? 0:1);\n",nlstate);
fprintf(ficgp,"\n#Peripheral arrows\nset for [i=1:%d] for [j=1:%d] arrow i10+j from cos(pi((1-(%d/2)2./%d)/2+(i-1)2./%d))-(i!=j?(i-j)/abs(i-j)delta:0), yoff +sin(pi((1-(%d/2)2./%d)/2+(i-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) rto -0.95(cos(pi((1-(%d/2)2./%d)/2+(i-1)2./%d))+(i!=j?(i-j)/abs(i-j)delta:0) - cos(pi((1-(%d/2)2./%d)/2+(j-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta2:0)), -0.95(sin(pi((1-(%d/2)2./%d)/2+(i-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) - sin(pi((1-(%d/2)2./%d)/2+(j-1)2./%d))+( i!=j?(i-j)/abs(i-j)*delta2:0)) ls (i < j? 1:2)\n",nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);	fprintf(ficgp,"\n#Peripheral arrows\nset for [i=1:%d] for [j=1:%d] arrow i10+j from cos(pi((1-(%d/2)2./%d)/2+(i-1)2./%d))-(i!=j?(i-j)/abs(i-j)delta:0), yoff +sin(pi((1-(%d/2)2./%d)/2+(i-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) rto -0.95(cos(pi((1-(%d/2)2./%d)/2+(i-1)2./%d))+(i!=j?(i-j)/abs(i-j)delta:0) - cos(pi((1-(%d/2)2./%d)/2+(j-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta2:0)), -0.95(sin(pi((1-(%d/2)2./%d)/2+(i-1)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) - sin(pi((1-(%d/2)2./%d)/2+(j-1)2./%d))+( i!=j?(i-j)/abs(i-j)*delta2:0)) ls (i < j? 1:2)\n",nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);

fprintf(ficgp,"\n#Centripete arrows (turning in other direction (1-i) instead of (i-1)) \nset for [i=1:%d] arrow (%d+1)10+i from cos(pi((1-(%d/2)2./%d)/2+(1-i)2./%d))-(i!=j?(i-j)/abs(i-j)delta:0), yoff +sin(pi((1-(%d/2)2./%d)/2+(1-i)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) rto -0.80(cos(pi((1-(%d/2)2./%d)/2+(1-i)2./%d))+(i!=j?(i-j)/abs(i-j)delta:0) ), -0.80(sin(pi((1-(%d/2)2./%d)/2+(1-i)2./%d)) + (i!=j?(i-j)/abs(i-j)*delta:0) + yoff ) ls 4\n",nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);	fprintf(ficgp,"\n#Centripete arrows (turning in other direction (1-i) instead of (i-1)) \nset for [i=1:%d] for [j=1:%d] arrow (%d+1)10+i from cos(pi((1-(%d/2)2./%d)/2+(1-i)2./%d))-(i!=j?(i-j)/abs(i-j)delta:0), yoff +sin(pi((1-(%d/2)2./%d)/2+(1-i)2./%d)) + (i!=j?(i-j)/abs(i-j)delta:0) rto -0.80(cos(pi((1-(%d/2)2./%d)/2+(1-i)2./%d))+(i!=j?(i-j)/abs(i-j)delta:0) ), -0.80(sin(pi((1-(%d/2)2./%d)/2+(1-i)2./%d)) + (i!=j?(i-j)/abs(i-j)*delta:0) + yoff ) ls 4\n",nlstate, nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);
fprintf(ficgp,"\n#show arrow\nunset label\n");	fprintf(ficgp,"\n#show arrow\nunset label\n");
fprintf(ficgp,"\n#States labels, starting from 2 (2-i) instead of (1-i), was (i-1)\nset for [i=1:%d] label i sprintf(\"State %%d\",i) center at cos(pi((1-(%d/2)2./%d)/2+(2-i)2./%d)), yoff+sin(pi((1-(%d/2)2./%d)/2+(2-i)2./%d)) font \"helvetica, 16\" tc rgbcolor \"blue\"\n",nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);	fprintf(ficgp,"\n#States labels, starting from 2 (2-i) instead of (1-i), was (i-1)\nset for [i=1:%d] label i sprintf(\"State %%d\",i) center at cos(pi((1-(%d/2)2./%d)/2+(2-i)2./%d)), yoff+sin(pi((1-(%d/2)2./%d)/2+(2-i)2./%d)) font \"helvetica, 16\" tc rgbcolor \"blue\"\n",nlstate,nlstate,nlstate,nlstate,nlstate,nlstate,nlstate);
fprintf(ficgp,"\nset label %d+1 sprintf(\"State %%d\",%d+1) center at 0.,0. font \"helvetica, 16\" tc rgbcolor \"red\"\n",nlstate,nlstate);	fprintf(ficgp,"\nset label %d+1 sprintf(\"State %%d\",%d+1) center at 0.,0. font \"helvetica, 16\" tc rgbcolor \"red\"\n",nlstate,nlstate);
Line 8123 void printinggnuplot(char fileresu[], ch	Line 8183 void printinggnuplot(char fileresu[], ch
fprintf(ficgp,"\nset out;unset log\n");	fprintf(ficgp,"\nset out;unset log\n");
/* fprintf(ficgp,"\nset out \"%s.svg\"; replot; set out; # bug gnuplot",subdirf2(optionfilefiname,"ILK_")); */	/* fprintf(ficgp,"\nset out \"%s.svg\"; replot; set out; # bug gnuplot",subdirf2(optionfilefiname,"ILK_")); */

	/* Plot the probability implied in the likelihood by covariate value */
	fprintf(ficgp,"\nset ter pngcairo size 640, 480");
	/* if(debugILK==1){ */
	for(kf=1; kf <= ncovf; kf++){ /* For each simple dummy covariate of the model */
	kvar=Tvar[TvarFind[kf]]; /* variable */
	k=18+Tvar[TvarFind[kf]];/offset because there are 18 columns in the ILK_ file /
	for (i=1; i<= nlstate ; i ++) {
	fprintf(ficgp,"\nset out \"%s-p%dj-%d.png\";set ylabel \"Probability for each individual/wave\";",subdirf2(optionfilefiname,"ILK_"),i,kvar);
	fprintf(ficgp,"unset log;\n# For each simple dummy covariate of the model \n plot \"%s\"",subdirf(fileresilk));
	fprintf(ficgp," u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? 7 : 9):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt variable ps 0.4 lc variable \\\n",i,1,k,k,i,1,kvar);
	for (j=2; j<= nlstate+ndeath ; j ++) {
	fprintf(ficgp,",\\\n \"\" u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? 7 : 9):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt variable ps 0.4 lc variable ",i,j,k,k,i,j,kvar);
	}
	fprintf(ficgp,";\nset out; unset ylabel;\n");
	}
	} /* End of each covariate dummy */
	for(ncovv=1, iposold=0, kk=0; ncovv <= ncovvt ; ncovv++){
	/* Other example V1 + V3 + V5 + ageV1 + ageV3 + ageV5 + V1V3 + V3V5 + V1V5
	* kmodel = 1 2 3 4 5 6 7 8 9
	* varying 1 2 3 4 5
	* ncovv 1 2 3 4 5 6 7 8
	* TvarVV[ncovv] V3 5 1 3 3 5 1 5
	* TvarVVind[ncovv]=kmodel 2 3 7 7 8 8 9 9
	* TvarFind[kmodel] 1 0 0 0 0 0 0 0 0
	* kdata ncovcol=[V1 V2] nqv=0 ntv=[V3 V4] nqtv=V5
	* Dummy[kmodel] 0 0 1 2 2 3 1 1 1
	*/
	ipos=TvarVVind[ncovv]; /* TvarVVind={2, 5, 5] gives the position in the model of the ncovv th varying covariate */
	kvar=TvarVV[ncovv]; /* TvarVV={3, 1, 3} gives the name of each varying covariate */
	/* printf("DebugILK ficgp ncovv=%d, kvar=TvarVV[ncovv]=%d, ipos=TvarVVind[ncovv]=%d, Dummy[ipos]=%d, Typevar[ipos]=%d\n", ncovv,kvar,ipos,Dummy[ipos],Typevar[ipos]); */
	if(ipos!=iposold){ /* Not a product or first of a product */
	/* printf(" %d",ipos); */
	/* fprintf(ficresilk," V%d",TvarVV[ncovv]); */
	/* printf(" DebugILK ficgp suite ipos=%d != iposold=%d\n", ipos, iposold); */
	kk++; /* Position of the ncovv column in ILK_ */
	k=18+ncovf+kk; /offset because there are 18 columns in the ILK_ file plus ncovf fixed covariate /
	if(Dummy[ipos]==0 && Typevar[ipos]==0){ /* Only if dummy time varying: Dummy(0, 1=quant singor prod without age,2 dummyage, 3quantage) Typevar (0 single, 1=age,2=Vnvm) */
	for (i=1; i<= nlstate ; i ++) {
	fprintf(ficgp,"\nset out \"%s-p%dj-%d.png\";set ylabel \"Probability for each individual/wave\";",subdirf2(optionfilefiname,"ILK_"),i,kvar);
	fprintf(ficgp,"unset log;\n# For each simple dummy covariate of the model \n plot \"%s\"",subdirf(fileresilk));

	if(gnuplotversion >=5.2){ /* Former gnuplot versions do not have variable pointsize!! */
	/* printf("DebugILK gnuplotversion=%g >=5.2\n",gnuplotversion); */
	fprintf(ficgp," u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? 7 : 9):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt variable ps 0.4 lc variable \\\n",i,1,k,k,i,1,kvar);
	for (j=2; j<= nlstate+ndeath ; j ++) {
	fprintf(ficgp,",\\\n \"\" u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? 7 : 9):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt variable ps 0.4 lc variable ",i,j,k,k,i,j,kvar);
	}
	}else{
	/* printf("DebugILK gnuplotversion=%g <5.2\n",gnuplotversion); */
	fprintf(ficgp," u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt 7 ps 0.4 lc variable \\\n",i,1,k,i,1,kvar);
	for (j=2; j<= nlstate+ndeath ; j ++) {
	fprintf(ficgp,",\\\n \"\" u 2:($5 == %d && $6==%d ? $10 : 1/0):($%d==0 ? $6 : $6+4) t \"p%d%d V%d\" with points pt 7 ps 0.4 lc variable ",i,j,k,i,j,kvar);
	}
	}
	fprintf(ficgp,";\nset out; unset ylabel;\n");
	}
	}/* End if dummy varying */
	}else{ /Product /
	/* printf(""); /
	/* fprintf(ficresilk,""); /
	}
	iposold=ipos;
	} /* For each time varying covariate */
	/* } /\* debugILK==1 \/ /
	/* unset log; plot "rrtest1_sorted_4/ILK_rrtest1_sorted_4.txt" u 2:($4 == 1 && $5==2 ? $9 : 1/0):5 t "p12" with points lc variable */
	/* fprintf(ficgp,"\nset log y;plot \"%s\" u 2:(-$11):3 t \"All sample, all transitions\" with dots lc variable",subdirf(fileresilk)); */
	/* fprintf(ficgp,"\nreplot \"%s\" u 2:($3 <= 3 ? -$11 : 1/0):3 t \"First 3 individuals\" with line lc variable", subdirf(fileresilk)); */
	fprintf(ficgp,"\nset out;unset log\n");
	/* fprintf(ficgp,"\nset out \"%s.svg\"; replot; set out; # bug gnuplot",subdirf2(optionfilefiname,"ILK_")); */



strcpy(dirfileres,optionfilefiname);	strcpy(dirfileres,optionfilefiname);
strcpy(optfileres,"vpl");	strcpy(optfileres,"vpl");
/* 1eme*/	/* 1eme*/
Line 11144 Fixed[k] 0=fixed (product or simple), 1	Line 11276 Fixed[k] 0=fixed (product or simple), 1
Dummy[k] 0=dummy (0 1), 1 quantitative (single or product without age), 2 dummy with age product, 3 quant with age product\n",model);	Dummy[k] 0=dummy (0 1), 1 quantitative (single or product without age), 2 dummy with age product, 3 quant with age product\n",model);
for(k=-1;k<=NCOVMAX; k++){ Fixed[k]=0; Dummy[k]=0;}	for(k=-1;k<=NCOVMAX; k++){ Fixed[k]=0; Dummy[k]=0;}
for(k=1;k<=NCOVMAX; k++){TvarFind[k]=0; TvarVind[k]=0;}	for(k=1;k<=NCOVMAX; k++){TvarFind[k]=0; TvarVind[k]=0;}
for(k=1, ncovf=0, nsd=0, nsq=0, ncovv=0, ncova=0, ncoveff=0, nqfveff=0, ntveff=0, nqtveff=0, ncovvt=0;k<=cptcovt; k++){ /* or cptocvt */	for(k=1, ncovf=0, nsd=0, nsq=0, ncovv=0, ncova=0, ncoveff=0, nqfveff=0, ntveff=0, nqtveff=0, ncovvt=0;k<=cptcovt; k++){ /* or cptocvt loop on k from model */
if (Tvar[k] <=ncovcol && Typevar[k]==0 ){ /* Simple fixed dummy (<=ncovcol) covariates */	if (Tvar[k] <=ncovcol && Typevar[k]==0 ){ /* Simple fixed dummy (<=ncovcol) covariates */
Fixed[k]= 0;	Fixed[k]= 0;
Dummy[k]= 0;	Dummy[k]= 0;
Line 12571 int main(int argc, char *argv[])	Line 12703 int main(int argc, char *argv[])
if(line[1]=='q'){ /* This #q will quit imach (the answer is q) */	if(line[1]=='q'){ /* This #q will quit imach (the answer is q) */
z[0]=line[1];	z[0]=line[1];
}else if(line[1]=='d'){ /* For debugging individual values of covariates in ficresilk */	}else if(line[1]=='d'){ /* For debugging individual values of covariates in ficresilk */
debugILK=1;	debugILK=1;printf("DebugILK\n");
}	}
/* printf("***line [1] = %c \n",line[1]); /	/* printf("***line [1] = %c \n",line[1]); /
fputs(line, stdout);	fputs(line, stdout);

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Removed from v.1.342
changed lines
	Added in v.1.343