// $Id: nqsnet.hoc,v 1.65 2010/09/07 18:56:17 samn Exp $ // xopen("nqsnet.hoc") // pre-id post-id pre# post# distance weight syn-id nc ptr wt1 (eg AMPA+NMDA) objref nq[2],sq[CTYPi][CTYPi],cp obfunc mkcp0 () { localobj lo lo = new NQS("PRID","POID","STYP","PIJ","DIV","CONV","NSYN","NPRE") lo.useslist("PRID",CTYP) lo.useslist("POID",CTYP) lo.useslist("STYP",STYP) return lo } // CODE: PRID,POID,INCOL,COL1,COL2 obfunc mksp () { localobj lo lo=new NQS("CODE","PR","PO","DEL","WT0","WT1") // CODE==PRID(1),POID(2),COLA(3),COLB(4) lo.coddec("CODE") // lo.useslist("PRID",CTYP) lo.useslist("POID",CTYP) return lo } sp=mksp() //* Numbers and connectivity params // layer return layer location with 'sublayer' defined by Inhib (+0.5) or other suffix // E or I should be 1st letter of name, suffix letter will ideally dichotomize into late // alphabet or early alphabet func layer () { local x,in,la la=0 if (sscanf(CTYP.o($1).s,"%c%d%c",&in,&x,&la)<2) return -1 if (x==23) x=3 // layer 2/3 if (in==73) x+=0.5 // ascii 73 is 'I' if (la>77) x+=0.2 // <='M' return x } //* routines //** styp() sets synapse type based on presynaptic cell func styp () { local pr,po pr=$1 po=$2 if (pr==IN && po==IN) { return GA } else if (pr==IN) { return IX } else if (pr==SU || pr==DP) { return EX } else if (pr==SM) { return AM } else if (strm(CTYP.o[pr].s,"^E")) { return EX } else if (strm(CTYP.o[pr].s,"^I")) { return IX } else printf("styp ERR %s->%s not classified",CTYP.object(pr).s,CTYP.object(po).s) } //** ellfld() place the cells inside an ellipse // r for an ellipse = a*b/sqrt((a*sin(theta))^2 + (b*cos(theta))^2) proc ellfld () { local a,b,ii,jj,p,seed localobj xv,yv,xo seed=239023229 a=1 b=2 p=allocvecs(xv,yv) vrsz(allcells*10,xv,yv) xv.setrnd(4,2*a,seed) yv.setrnd(4,2*b) xv.sub(a) yv.sub(b) jj=0 for vtr2(&x,&y,xv,yv,&ii) { if (a*x^2+b*y^2<1) { ce.o(jj).xloc=x ce.o(jj).yloc=y jj+=1 } if (jj==ce.count) break } print ii,jj if (jj!=ce.count) print "Not filled" dealloc(p) }