static void diag_stat(int type,int*n_sub,int*n_del,int*n_calc,int*n_rest)
{
int ndel,ncalc,nrest;
long nn;
char buff[50];
FILE * tmp, **menu;
*n_sub=0, *n_del=0, *n_calc=0, *n_rest=0;
if(type==1) { menu=&menup; strcpy(buff,MENUP_NAME);}
else { menu=&menuq; strcpy(buff,MENUQ_NAME);}
tmp=*menu;
*menu=fopen(buff,"rb");
if(*menu)
{
while (rd_menu(type, *n_sub+1 ,buff, &ndel,&ncalc,&nrest,&nn))
{
(*n_sub)++;
*n_del +=ndel;
*n_calc+=ncalc;
*n_rest+=nrest;
}
fclose(*menu);
}
*menu=tmp;
return;
}
int c_prog(void)
{
int result;
catalog=fopen(CATALOG_NAME "2","rb");
if(catalog)
{
int nin_=nin,nout_=nout, subproc_sq_=subproc_sq;
/* archiv=fopen(ARCHIV_NAME "2","rb"); */
diagrq=fopen(DIAGRQ_NAME "2","rb");
menuq=fopen(MENUQ_NAME "2","rb");
nin=1; nout=2;
{ char txt[100]; int ndel, ncalc, nrest;
long recpos;
for(subproc_sq=0;rd_menu(2,subproc_sq+1,txt,&ndel,&ncalc,&nrest,&recpos); subproc_sq++);
}
outFileOpen("%sresults%cwidth_2.c",pathtouser,f_slash);
labl();
writeF("#include<math.h>\n");
writeF("#include<stdio.h>\n");
writeF("#include\"extern_2.h\"\n");
writeF("#include\"num_out.h\"\n");
writeF("#include\"num_in.h\"\n");
result=c_prog_int(1);
outFileClose();
system("cd results; sed s/_ext/_2/g width_2.c > width2.c; "
"cat width2.c $CALCHEP/include/width_2+ > width_2.c; rm width2.c; "
"mv extern.h extern_2.h");
fclose(catalog);
whichArchive(0,0,0);
fclose(diagrq);
fclose(menuq);
nin=nin_; nout=nout_;
subproc_sq=subproc_sq_;
} else if(nin+nout>3)
{ outFileOpen("%sresults%cwidth_2.c",pathtouser,f_slash);
writeF("extern double width2_ext(char * pname);\n");
writeF("double width2_ext(char * pname){return 0.;}\n");
outFileClose();
}
catalog=fopen(CATALOG_NAME,"rb");
diagrq=fopen(DIAGRQ_NAME,"rb");
menuq=fopen(MENUQ_NAME,"rb");
result=c_prog_int(0);
fclose(catalog);
whichArchive(0,0,0);
fclose(diagrq);
fclose(menuq);
return result;
}
static void prepareprocinform(void)
{int ndel, ncalc, nrest;
long recpos;
char txt[STRSIZ];
int i, k;
csdiagram csd;
char * mass;
int nn;
int nsubs;
inf = NULL;
fseek(menuq,0,SEEK_SET);
for (nsubs=1;nsubs<=subproc_sq;nsubs++)
{
inftmp = inf;
inf = (procinfptr)getmem_((unsigned)sizeof(procinfrec));
inf->next = inftmp;
rd_menu(2,nsubs,txt,&ndel,&ncalc,&nrest,&recpos);
inf->firstdiagpos = recpos;
getprtcls(txt,inf->p_name);
for (i = 0; i < nin + nout; i++)
{
locateinbase(inf->p_name[i],&nn);
mass=prtclbase[nn-1].massidnt;
if (strcmp(mass,"0")) {for(k=1; k<=nmodelvar; k++) if(strcmp(modelvars[k].varname,mass)==0) break;}
else k=0;
if(k>nmodelvar){ printf("mass %s is not defined\n",mass); exit(125);}
inf->p_masspos[i] = k;
inf->p_code[i]=prtclbase1[nn].N;
}
for (i = nin + nout; i < MAXINOUT; i++)
{
strcpy(inf->p_name[i],"***");
inf->p_masspos[i] = 0;
}
fseek(diagrq,recpos*sizeof(csdiagram),SEEK_SET);
inf->tot = 0;
for (i = 1; i <= ndel + ncalc + nrest; i++)
{
FREAD1(csd,diagrq);
if (csd.status == 1) ++(inf->tot);
}
if(inf->tot==0) for (i = 0; i < nin + nout; i++) inf->p_masspos[i]=0;
}
nsubs--;
revers((void **)&inf);
}
void mk_reduceprograms(void)
{
int ndel, ncalc, nrest, i;
long nrecord, naxu;
csdiagram csd;
unsigned ncalctot;
shortstr txt;
hlpcsptr gstlist, c;
vcsect vcs_copy;
s_listptr d_facts, df;
rmptr t_fact;
goto_xy(1,21); scrcolor(Yellow,Blue);
print(" REDUCE code generation \n");
scrcolor(Red,BGmain);
print(" Generated........\n");
print(" current diagram :\n");
scrcolor(Yellow,Blue);
print(" Press Esc to halt REDUCE codes generation ");
scrcolor(FGmain,BGmain);
diagrq=fopen(DIAGRQ_NAME,"rb");
ncalctot = 0;
menuq=fopen(MENUQ_NAME,"rb");
for(nsub=1;nsub<=subproc_sq;nsub++)
{
rd_menu(2,nsub,txt,&ndel,&ncalc,&nrest,&nrecord);
fseek(diagrq,nrecord*sizeof(csdiagram),SEEK_SET);
naxu = ndel + ncalc + nrest;
for (ndiagr = 1; ndiagr <= naxu; ndiagr++)
{
goto_xy(20,22); print("%u",ncalctot);
goto_xy(20,23); print("%u",ndiagr); clr_eol();
FREAD1(csd,diagrq);
if (csd.status != -1)
{
outFileOpen("%sresults%cp%d_%d.red",pathtouser,f_slash,nsub,ndiagr);
writeLabel('%');
writeF("%%\n");
transfdiagr(&csd,&vcs);
cwtarg(&vcs);
if (vcs.clrnum == 0)
{
writeF(
"%%------- Zero color factor --------\n");
writeF("totFactor_:=0$\n");
writeF("numerator_:=0$\n");
writeF("denominator_:=1$\n");
}
else
{
generateghosts(&vcs,&gstlist);
if (gstlist == NULL)
{
writeF( "%%------- non-existent diagram --------\n");
writeF("totFactor_:=0$\n");
writeF("numerator_:=0$\n");
writeF("denominator_:=1$\n");
}
else
{
goto_xy(40,23);
print("(%% %4d subdiagrams)",gstlist->maxnum);
writeF("%% The total number of diagrams %d\n",gstlist->maxnum);
preperdiagram();
head();
emitfactors();
diagramsrfactors(gstlist,&d_facts,&t_fact);
writeF("totFactor_:=%s$\n",rmonomtxt(*t_fact));
writeF("totFactor_:="
"totFactor_*SymmFact*AverFact*FermFact*ColorFact$\n");
clrvm(t_fact->n.v);
clrvm(t_fact->d.v);
free(t_fact);
writesubst();
writeF("numerator_:=0$\n");
c = gstlist;
df = d_facts;
vcs_copy = vcs;
while (c != NULL)
{
coloringvcs(c);
writeF("%% diagram number = %d\n", c->num);
DiagramToOutFile(&vcs,1,'%');
{int k; int sgn=c->sgn;
for(k=0;k<vcs.sizet;k++) sgn*=vertexes[k].lgrnptr->factor;
writeF(" GhostFact:=%d$\n",sgn);
}
findReversVert();
attachvertexes();
emitreducecode();
writeF(" numerator_:=numerator_ +(%s)*GhostFact*Vrt_1 $\n",
smonomtxt(df->monom));
writeF(" Clear Vrt_1,GhostFact$\n");
writeF("%%\n");
vcs = vcs_copy;
c = c->next;
df = df->next;
}
eraseslist(d_facts);
eraseghosts(gstlist);
vcs = vcs_copy;
emitdenoms();
writeF(" Clear p%d",nin + nout + 1);
for (i = nin + nout + 2; i <= 12; i++)
writeF(",p%d",i);
writeF("$\n");
writeF("%%\n");
}
}
writeF("End$\n");
outFileClose();
--(nrest);
++(ncalctot);
if (escpressed()) goto exi;
}
}
}
exi:
fclose(diagrq); fclose(menuq);
clrbox(1,21,70,24);
}
int main(int argc,char** argv)
{
/*===================================
0 - First start.
1 - Model menu.
2 - Enter process menu.
3 - Feynman diagrams menu; squaring.
4 - Squared diagram menu; symbolic calculation.
5 - Write results; new process.
10 -Restart symbolic calculations
==========================================================*/
/* 0-Start; 1-Restart; 2-Heap Error,3-Edit Model,4-UserBreak */
void *pscr1=NULL,*pscr2=NULL,*pscr3=NULL,*pscr4=NULL,*pscr5=NULL;
int k1=1,k2=1,k3=1,k4=1,k5=1;
int n;
int pid=0;
char LOCKtxt[]="Directory 'results/' contains the .lock file created by n_calchep.\n"
"To continue you may a)Close the n_calchep session, or b)Rename 'results/',\n";
blind=0;
strcpy(pathtocomphep,argv[0]);
for(n=strlen(pathtocomphep)-1; n && pathtocomphep[n]!=f_slash; n--);
pathtocomphep[n-3]=0;
for ( n=1;n<argc;n++)
{ if (strcmp(argv[n],"-blind")==0 && n<argc-1 )
{ blind=1;
inkeyString=argv[++n];
}
if (strcmp(argv[n],"+blind")==0 ) blind=2;
}
if(!writeLockFile(".lock"))
{ fprintf(stderr,"locked by other s_calchep. See .lock file\n");
exit(100);
}
strcpy(pathtouser,"");
sprintf(pathtohelp,"%shelp%c",pathtocomphep,f_slash);
outputDir="results/";
{ char * icon=(char *) malloc(strlen(pathtocomphep)+10);
int err;
sprintf(icon,"%sicon",pathtocomphep);
err=start1("CalcHEP/symb",icon,"calchep.ini",&xw_error);
if(err && blind==0)
{ printf("Error:You have launched interactive session for version compiled without X11 library.\n");
printf("Options: a) Use blind session; b) Recompile CalcHEP with X11\n");
exit(66);
}
free(icon);
}
fillModelMenu();
f3_key[0]=f3_key_prog; f3_mess[0]="Model";
f3_key[1]=f4_key_prog; f3_mess[1]="Diagrams";
f3_key[2]=f5_key_prog; f3_mess[2]="Switches";
f3_key[3]=f6_key_prog; f3_mess[3]="Results";
f3_mess[4]="Del";
f3_mess[5]="UnDel";
f3_key[6]=f9_key_prog; f3_mess[6]="Ref";
f3_key[7]=f10_key_prog; f3_mess[7]="Quit";
restoreent(&menulevel);
if(!blind && menulevel<2) cheplabel();
switch (menulevel)
{
case 10:
case 6:
case 5:
case 4:
case 3: readModelFiles("./models",n_model);
modelinfo();
loadModel(0,forceUG);
processinfo();
diagramsinfo();
case 2: k1=n_model;
case 1: break;
}
switch (menulevel)
{
case 2: menuhelp();
goto label_20;
case 3: goto label_31;
case 4: goto label_40;
case 5: goto label_50;
case 6:
case 10: goto restart2;
}
label_10: /* Menu2(ModelMenu): */
f3_key[0]=NULL; /*models*/
f3_key[1]=NULL; /*diagrams*/
menulevel = 1;
forceUG=0;
menuhelp();
for(;;)
{
showheap();
k1=n_model;
menu1(56,4,"",modelmenu,"s_1",&pscr1,&k1);
n_model=k1;
if(n_model == 0)
{
if( mess_y_n(56,4,"Quit session")) { saveent(menulevel); goto exi; }
}
else if(n_model == maxmodel+1)
{
clrbox(1,4,55,18);
makenewmodel();
menuhelp();
}
else if (n_model > 0)
{
put_text(&pscr1);
goto label_20;
}
}
label_20: /* Menu3:Enter Process */
f3_key[0]=NULL;
f3_key[1]=NULL;
menulevel = 2;
saveent(menulevel);
readModelFiles("./models",n_model);
modelinfo();
k2 = 1;
do
{ char strmen[]="\026"
" Enter Process "
" Force Unit.Gauge OFF "
" Edit model "
" Delete model ";
if(forceUG)improveStr(strmen,"OFF","ON");
menu1(56,4,"",strmen,"s_2_*",&pscr2,&k2);
switch (k2)
{
case 0: goto_xy(1,1); clr_eol(); goto label_10;
case 2: forceUG=!forceUG; modelinfo(); break;
case 3: editModel(1); break;
case 4:
if ( deletemodel(n_model) )
{
goto_xy(1,1);
clr_eol();
n_model=1;
fillModelMenu();
goto label_10;
}
else readModelFiles("./models",n_model);
}
} while (k2 != 1);
loadModel(0,forceUG);
label_21:
f3_key[0]=NULL;
f3_key[1]=NULL;
menulevel=2;
errorcode=enter(); /* Enter a process */
newCodes=0;
showheap();
if (errorcode) /* 'Esc' pressed */ { menuhelp(); goto label_20;}
errorcode=construct(); /* unSquared diagrams */
if (errorcode)
{ if(blind)
{ printf("Processes of this type are absent\n"); sortie(111); }
else
{ messanykey(5,22,"Processes of this type are absent");
clrbox(1,19,80,24);
goto label_21;
}
}
else if(!blind)
{ int dirStat=checkDir("results");
if(dirStat!=0)
{ messanykey( 10,10,"There are files in directory 'results/'.\n"
"To continue you has to clean or rename this directory.");
viewresults();
if(checkDir("results")!=0) goto label_21;
}
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
goto label_31;
}
label_30: /* Menu4: Squaring,...*/
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
label_31:
f3_key[0]=f3_key_prog;
f3_key[1]=NULL;
menulevel=3;
k3 = 1;
do
{
menu1(56,4,"","\026"
" View diagrams "
/* " Amplitude calculation" */
" Squaring technique "
" Write down processes ","s_squa_*",&pscr3,&k3);
switch (k3)
{
case 0: clrbox(1,2,55,11); menuhelp(); goto label_20;
case 1: viewfeyndiag(1); break;
case 3: { FILE*f=fopen("results/list_prc.txt","w");
int k,ndel,ncalc,nrest;
char process[100];
long recpos;
menup=fopen(MENUP_NAME,"r");
for(k=1;;k++)
{ int err=rd_menu(1,k,process,&ndel,&ncalc,&nrest,&recpos);
if(!err) break;
trim(process);
fprintf(f,"%s\n",process);
}
fclose(f);
fclose(menup);
messanykey(20,14,"See file 'results/list_prc.txt'");
} break;
/* case 2: messanykey(10,10,"Not implemented yet"); Amplitudes(); */
}
} while (k3 != 2);
if (!squaring()) goto label_30; /* process is absent */
clear_tmp();
saveent(menulevel);
restoreent(&menulevel);
label_40: /* Menu5: View squared diagrams..... */
f3_key[0]=f3_key_prog;
f3_key[1]=f4_key_prog;
menulevel=4;
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
sq_diagramsinfo(); /* ???????? */
k4=1;
saveent(menulevel);
pscr4=NULL;
for(;;)
{ int res;
menu1(56,4,"","\026"
" View squared diagrams"
" Symbolic calculations"
" Make&Launch n_calchep"
" Make n_calchep "
" REDUCE program "
,"s_calc_*",&pscr4,&k4);
res=checkDir("results");
if(res==1)
{
int n_calchep_id=setLockFile("results/.lock");
if(n_calchep_id) unLockFile(n_calchep_id); else res=2;
}
switch (k4)
{ case 0:
if (mess_y_n(50,3,"Return to previous menu?"))goto label_30;
break;
case 1:
viewsqdiagr(); break;
case 2: /* Compute all diagrams */
restart2:
f3_key[0]=f3_key_prog;
f3_key[1]=f4_key_prog;
menulevel=4;
calcallproc();
sq_diagramsinfo();
if(!continuetest()) break;
showheap();
put_text(&pscr4);
break;
case 3:
{ static char keystr[12]="]{{[{";
if(res==2) messanykey(3,10,LOCKtxt); else inkeyString=keystr;
}
break;
case 4:
if(res==2) messanykey(3,10,LOCKtxt); else
{ char command[100];
FILE *f=fopen("results/EXTLIB","w");
fprintf(f,"EXTLIB=\"%s\"\nexport EXTLIB\n",EXTLIB);
fclose(f);
saveent(menulevel);
{ char command[100];
sprintf(command,"cd results; $CALCHEP/bin/make_VandP ../models %d",n_model);
system(command);
}
finish();
sortie(22);
}
case 5: mk_reduceprograms(); break;
}
if(k4==2 && continuetest()) { put_text(&pscr4); break; }
}
label_50:
k5=1;
pscr5=NULL;
menulevel=5;
saveent(menulevel);
for(;;)
{ int n_calchep_id;
menu1(56,4,"","\026"
" C code "
" C-compiler "
" Edit Linker "
" REDUCE code "
" MATHEMATICA code "
" FORM code "
" Enter new process " ,"s_out_*",&pscr5,&k5);
if((k5==1||k5==2)&&pid)
{ int epid=waitpid(pid,NULL,WNOHANG);
if(epid) pid=0; else
{
messanykey(3,10,"This option is frozen while n_calchep runs or is compiled");
continue;
}
}
switch (k5)
{ case 0: goto label_40; break;
case 1:
c_prog(); newCodes=0; saveent(menulevel);
break;
case 2:
if(newCodes) { c_prog(); newCodes=0; saveent(menulevel);}
pid=fork();
if(pid==0)
{
char * command;
n_calchep_id=setLockFile("results/.lock");
if(n_calchep_id)
{
command=(char*)malloc(strlen(pathtocomphep)+strlen(EXTLIB)+100);
sprintf(command,"EXTLIB=\"%s\"\n"
"export EXTLIB\n"
"cd results\n"
"xterm -e %s/make__n_calchep %d",
EXTLIB,pathtocomphep,n_model);
system(command);
sprintf(command,"cd results; ./n_calchep");
unLockFile(n_calchep_id);
system(command);
free(command);
}
exit(0);
}
break;
case 3: if(edittable(1,1,&modelTab[4],1," ",0))
{ char fName[STRSIZ];
readEXTLIB();
sprintf(fName,"%smodels%c%s%d.mdl",pathtouser,f_slash,mdFls[4],n_model);
writetable( &modelTab[4],fName);
}
break;
case 4: makeReduceOutput(); break;
case 5: makeMathOutput(); break;
case 6: makeFormOutput(); break;
case 7:
put_text(&pscr5);
clrbox(1,2,55,11);
menuhelp();
goto label_20;
}
}
exi:
finish();
sortie(0);
return 0;
}
int compileall(void)
{int n_sub, ndel, ncalc, nrest; long recpos;
int i,k, pNum[MAXINOUT+1];
char procname[STRSIZ];
infoptr inf;
outputLanguage='I';
catalog=fopen(CATALOG_NAME,"rb");
archiv =fopen(ARCHIV_NAME,"rb");
initvararray(0,'R');
firstVar=nmodelvar;
if( !strcmp( modelvars[firstVar].varname,strongconst)) firstVar--;
initinfo();
menuq=fopen(MENUQ_NAME,"rb");
nprc_=0;
for(n_sub=1;n_sub<=subproc_sq;n_sub++)
{
rd_menu(2,n_sub,procname,&ndel,&ncalc,&nrest,&recpos);
if (nrest != 0)
{
messanykey(10,10,
"All diagrams in the subprocess must be\ncalculated or marked as deleted");
return -1;
}
if (ncalc != 0)
{
findPrtclNum(procname,pNum);
for(i=0;i<nin+nout;i++)
{ strcpy(allcanal[nprc_].prtclnames[i], prtclbase[pNum[i+1]-1].name);
allcanal[nprc_].prtclmasses[i]=
&(vararr[modelVarPos(prtclbase[pNum[i+1]-1].massidnt)].tmpvalue);
}
compileprocess(n_sub,&allcanal[nprc_].codeptr,
&allcanal[nprc_].denominators);
nprc_++;
}
}
fclose(menuq);
fclose(catalog);
fclose(archiv);
if(nprc_ == 0)
{
messanykey(10,10,
" Set of calculated diagrams for this processis is empty");
return -1;
}
inf = info;
while (inf != NULL)
{
if (inf->consttype == numb)
{
inf->rval = inf->ival;
inf->consttype = rnumb ;
}
inf = inf->next;
}
nin_ = nin;
nout_= nout;
nvar_=0;
nfunc_=0;
for (k=1;k<=nmodelvar; k++)
{ if(vararr[k].used)
{ if( modelvars[k].func) nfunc_++;else nvar_++;}
}
return 0;
}
int main(int argc,char** argv)
{
/*===================================
0 - First start.
1 - Model menu.
2 - Enter process menu.
3 - Feynman diagrams menu; squaring.
4 - Squared diagram menu; symbolic calculation.
5 - Write results; new process.
10 -Restart symbolic calculations
==========================================================*/
/* 0-Start; 1-Restart; 2-Heap Error,3-Edit Model,4-UserBreak */
void *pscr1=NULL,*pscr2=NULL,*pscr3=NULL,*pscr4=NULL,*pscr5=NULL;
int k1=1,k2=1,k3=1,k4=1,k5=1;
int n;
int pid=0;
char LOCKtxt[]="Directory 'results/' contains the .lock file created by n_calchep.\n"
"To continue you may a)Close the n_calchep session, or b)Rename 'results/',\n";
blind=0;
strcpy(pathtocalchep,argv[0]);
for(n=strlen(pathtocalchep)-1; n && pathtocalchep[n]!=f_slash; n--);
pathtocalchep[n-3]=0;
for ( n=1;n<argc;n++)
{ if (strcmp(argv[n],"-blind")==0 && n<argc-1 )
{ blind=1;
inkeyString=argv[++n];
}
if (strcmp(argv[n],"+blind")==0 ) blind=2;
if (strcmp(argv[n],"--version")==0 ) { printf("%s\n", VERSION_); exit(0);}
}
if(!writeLockFile(".lock"))
{ fprintf(stderr,"locked by other s_calchep. See .lock file\n");
exit(100);
}
strcpy(pathtouser,"");
sprintf(pathtohelp,"%shelp%c",pathtocalchep,f_slash);
outputDir="results/";
{ char * icon=(char *) malloc(strlen(pathtocalchep)+20);
char title[30];
int err;
sprintf(icon,"%s/include/icon",pathtocalchep);
sprintf(title,"CalcHEP_%s/symb", VERSION);
err=start1(title,icon,"calchep.ini",&xw_error);
if(err && blind==0)
{ printf("Error:You have launched interactive session for version compiled without X11 library.\n");
printf(" Presumably X11 development package is not installed in your computer.\n");
printf(" In this case directory /usr/include/X11/ is empty.\n");
printf("Options: a) Use blind session; b) Update Linux and recompile CalcHEP \n");
printf("Name of needed package\n");
printf(" libX11-devel Fedora/Scientific Linux/CYGWIN/Darwin(MAC)\n");
printf(" libX11-dev Ubuntu/Debian\n");
printf(" xorg-x11-devel SUSE\n");
exit(66);
}
free(icon);
}
fillModelMenu();
f3_key[0]=f3_key_prog; f3_mess[0]="Model";
f3_key[1]=f4_key_prog; f3_mess[1]="Diagrams";
f3_key[2]=f5_key_prog; f3_mess[2]="Switches";
f3_key[3]=f6_key_prog; f3_mess[3]="Results";
f3_mess[4]="Del";
f3_mess[5]="UnDel";
f3_key[6]=f9_key_prog; f3_mess[6]="Ref";
f3_key[7]=f10_key_prog; f3_mess[7]="Quit";
restoreent(&menulevel);
if(!blind && menulevel<2) cheplabel();
switch (menulevel)
{
case 10:
case 6:
case 5:
case 4:
case 3: readModelFiles("./models",n_model);
modelinfo();
loadModel(0,forceUG);
processinfo();
diagramsinfo();
k1=n_model;
break;
case 2: k1=n_model;
readModelFiles("./models",n_model);
break;
}
switch (menulevel)
{
case 2: menuhelp();
goto label_20;
case 3: goto label_31;
case 4: goto label_40;
case 5: goto label_50;
case 6:
case 10: goto restart2;
}
label_10: /* Menu2(ModelMenu): */
f3_key[0]=NULL; /*models*/
f3_key[1]=NULL; /*diagrams*/
menulevel = 1;
forceUG=0;
menuhelp();
for(;;)
{
showheap();
k1=n_model;
menu1(56,4,"",modelmenu,"s_1",&pscr1,&k1);
if(k1 == 0)
{
if( mess_y_n(56,4,"Quit session")) {n_model=0; saveent(menulevel); goto exi; }
}
else if(k1 == maxmodel+1)
{
clrbox(1,4,55,18);
makenewmodel();
menuhelp();
}
else if (k1 > 0)
{ int err=0;
put_text(&pscr1);
if(k1!=n_model || ldModelStatus==0) { err=readModelFiles("./models",k1);}
n_model=k1;
if(err){ if(blind) sortie(133); else goto label_10;} else goto label_20;
}
}
label_20: /* Menu3:Enter Process */
f3_key[0]=NULL;
f3_key[1]=NULL;
menulevel = 2;
saveent(menulevel);
modelinfo();
k2 = 1;
do
{ char strmen[]="\026"
" Enter Process "
" Force Unit.Gauge= OFF"
" Edit model "
" Numerical Evaluation "
"======================"
" Delete model ";
if(forceUG)improveStr(strmen,"OFF","ON");
menu1(56,4,"",strmen,"s_2_*",&pscr2,&k2);
switch (k2)
{
case 0: goto_xy(1,1); clr_eol(); goto label_10;
case 2: forceUG=!forceUG; modelinfo(); break;
case 3: editModel(1); break;
case 4: numcheck();
case 5: break;
case 6:
if(deletemodel(n_model))
{
goto_xy(1,1);
clr_eol();
n_model=1;
ldModelStatus=0;
fillModelMenu();
goto label_10;
}
}
} while (k2 != 1);
if(!loadModel(0,forceUG)) goto label_20;
label_21:
f3_key[0]=NULL;
f3_key[1]=NULL;
menulevel=2;
checkAuxDir(n_model);
errorcode=enter(); /* Enter a process */
newCodes=0;
showheap();
if (errorcode) /* 'Esc' pressed */ { menuhelp(); goto label_20;}
errorcode=construct(); /* unSquared diagrams */
if (errorcode)
{ if(blind)
{ printf("Processes of this type are absent\n"); sortie(111); }
else
{ messanykey(5,22,"Processes of this type are absent");
clrbox(1,19,80,24);
goto label_21;
}
}
else if(!blind)
{ int dirStat=checkDir("results");
if(dirStat!=0)
{ messanykey( 10,10,"There are files in directory 'results/'.\n"
"To continue you has to clean or rename this directory.");
viewresults();
if(checkDir("results")!=0) goto label_21;
}
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
goto label_31;
}
label_30: /* Menu4: Squaring,...*/
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
label_31:
f3_key[0]=f3_key_prog;
f3_key[1]=NULL;
menulevel=3;
k3 = 1;
do
{
menu1(56,4,"","\026"
" View diagrams "
/* " Amplitude calculation" */
" Square diagrams "
" Write down processes ","s_squa_*",&pscr3,&k3);
switch (k3)
{
case 0: clrbox(1,2,55,11); menuhelp(); goto label_20;
case 1: viewfeyndiag(1); break;
case 3: { FILE*f=fopen("results/list_prc.txt","w");
int k,ndel,ncalc,nrest;
char process[100];
long recpos;
menup=fopen(MENUP_NAME,"r");
for(k=1;;k++)
{ int err=rd_menu(1,k,process,&ndel,&ncalc,&nrest,&recpos);
if(!err) break;
trim(process);
fprintf(f,"%s\n",process);
}
fclose(f);
fclose(menup);
messanykey(20,14,"See file 'results/list_prc.txt'");
} break;
/* case 2: messanykey(10,10,"Not implemented yet"); Amplitudes(); */
}
} while (k3 != 2);
if (!squaring()) goto label_30; /* process is absent */
clear_tmp();
saveent(menulevel);
restoreent(&menulevel);
label_40: /* Menu5: View squared diagrams..... */
f3_key[0]=f3_key_prog;
f3_key[1]=f4_key_prog;
menulevel=4;
clr_scr(FGmain,BGmain);
modelinfo();
processinfo();
diagramsinfo();
sq_diagramsinfo(); /* ???????? */
k4=1;
saveent(menulevel);
pscr4=NULL;
for(;;)
{ int res;
menu1(56,4,"","\026"
" View squared diagrams"
" Symbolic calculations"
" Make&Launch n_calchep"
" Make n_calchep "
" REDUCE program "
,"s_calc_*",&pscr4,&k4);
res=checkDir("results");
if(res==1)
{
int n_calchep_id=setLockFile("results/.lock");
if(n_calchep_id) unLockFile(n_calchep_id); else res=2;
}
switch (k4)
{ case 0:
if (mess_y_n(50,3,"Return to previous menu?"))goto label_30;
break;
case 1:
viewsqdiagr(); break;
case 2: /* Compute all diagrams */
restart2:
f3_key[0]=f3_key_prog;
f3_key[1]=f4_key_prog;
menulevel=4;
if(!nPROCSS ) calcallproc(); else
{ int *pids=malloc(sizeof(int)*nPROCSS);
int *pipes=malloc(2*sizeof(int)*nPROCSS);
int **qd=malloc(sizeof(int*)*nPROCSS);
int totD=sqDiagList(qd, nPROCSS);
int totC,nProc;
int k;
fflush(NULL);
for(k=0;k<nPROCSS;k++)
{ int* kpipe=pipes+2*k;
pipe(kpipe);
pids[k]=fork();
if(pids[k]==0)
{
close(kpipe[0]);
calcWithFork(k,qd[k],kpipe[1]);
exit(0);
}
}
for(k=0;k<nPROCSS;k++) close(pipes[2*k+1]);
infoLine(0.);
for(nProc=nPROCSS,totC=0;nProc;)
{ int one;
int err;
nProc=0;
for(k=0;k<nPROCSS;k++) if(pids[k])
{ if(waitpid(pids[k],NULL,WNOHANG)==0)
{ nProc++;
if(read(pipes[2*k],&one,sizeof(int)))totC+=one;
} else
{ for(;read(pipes[2*k],&one,sizeof(int))>0;) totC+=one;
pids[k]=0;
}
}
if(infoLine((double)totC/(double)totD)) for(k=0;k<nPROCSS;k++) if(pids[k]) kill(pids[k],SIGUSR1);
}
infoLine(2);
for(k=0;k<nPROCSS;k++)
{ char ctlgName[100];
char command[200];
sprintf(ctlgName,"%s_%d",CATALOG_NAME,k);
if(access(ctlgName,R_OK)==0)
{ sprintf(command," cat %s >> %s", ctlgName,CATALOG_NAME);
system(command);
unlink(ctlgName);
}
}
if(totC) newCodes=1;
updateMenuQ();
for(k=0;k<nPROCSS;k++) close(pipes[2*k]);
free(pids);
free(pipes);
for(k=0;k<nPROCSS;k++) free(qd[k]);
free(qd);
}
sq_diagramsinfo();
if(!continuetest()) break;
showheap();
put_text(&pscr4);
break;
case 3:
{ static char keystr[12]="]{{[{";
if(res==2) messanykey(3,10,LOCKtxt); else inkeyString=keystr;
}
break;
case 4:
if(res==2) messanykey(3,10,LOCKtxt); else
{ char command[100];
saveent(menulevel);
chdir("results");
makeVandP(0,"../models",n_model,2,pathtocalchep);
finish();
sortie(22);
}
case 5: mk_reduceprograms(); break;
}
if(k4==2 && continuetest()) { put_text(&pscr4); break; }
}
label_50:
k5=1;
pscr5=NULL;
menulevel=5;
saveent(menulevel);
sq_diagramsinfo();
for(;;)
{ int n_calchep_id;
menu1(56,4,"","\026"
" C code "
" C-compiler "
" Edit Linker "
" REDUCE code "
" MATHEMATICA code "
" FORM code "
" Enter new process " ,"s_out_*",&pscr5,&k5);
if((k5==1||k5==2)&&pid)
{ int epid=waitpid(pid,NULL,WNOHANG);
if(epid) pid=0; else
{
messanykey(3,10,"This option is frozen while n_calchep runs or is compiled");
continue;
}
}
switch (k5)
{ case 0: goto label_40; break;
case 1:
c_prog(); newCodes=0; saveent(menulevel);
break;
case 2:
if(newCodes) { c_prog(); newCodes=0; saveent(menulevel);}
n_calchep_id=setLockFile("results/.lock");
if(n_calchep_id)
{
if(nPROCSS)
{ chdir("results");
makeVandP(0,"../models",n_model,2,pathtocalchep);
pCompile();
if(access("./n_calchep",X_OK)==0)
{
fflush(NULL);
pid=fork();
if(pid==0)
{
system("./n_calchep");
exit(0);
}
} else messanykey(15,15,"n_calchep is not generated");
chdir("../");
} else
{ fflush(NULL);
pid=fork();
if(pid==0)
{ if(chdir("results")==0)
{ char*command=malloc(100+strlen(pathtocalchep));
makeVandP(0,"../models",n_model,2,pathtocalchep);
sprintf(command,"xterm -e %s/sbin/make__n_calchep %d", pathtocalchep,n_model);
system(command);
free(command);
system("./n_calchep");
}
exit(0);
}
}
unLockFile(n_calchep_id);
}
break;
case 3: if(edittable(1,1,&modelTab[4],1," ",0))
{ char fName[STRSIZ];
sprintf(fName,"%smodels%c%s%d.mdl",pathtouser,f_slash,mdFls[4],n_model);
writetable( &modelTab[4],fName);
}
break;
case 4: makeReduceOutput(); break;
case 5: makeMathOutput(); break;
case 6: makeFormOutput(); break;
case 7:
put_text(&pscr5);
clrbox(1,2,55,11);
menuhelp();
goto label_20;
}
}
exi:
finish();
sortie(0);
return 0;
}
