back=0
//////// load needed templates////////////
if(!back){ load_file("nrngui.hoc") }
if(!back){ load_file("template/ObliquePath.hoc") }
if(!back){ load_file("template/BasalPath.hoc" ) }
objref econ,f1,f2,f3,ss,cvode
f1= new File()
f2= new File()
f3= new File()
ss=new SaveState()
cvode = new CVode(1)
x=cvode.active(1)
restart=0
v_init=-70
strdef morphology_location, morpho_path, ObliqueTrunkSection, BasalTrunkSection
objref vRP, vAPEX
proc xopen_morphology(){
sprint(morpho_path,"%s/%s",morphology_location,$s1)
xopen(morpho_path)
}
// Carmen
morphology_location = "pc1a"
ObliqueTrunkSection = "trunk[17]"
BasalTrunkSection = "trunk[7]"
xopen_morphology("cell.hoc") //reads morpholofy from the file
xopen_morphology("cell-analysis-simple.hoc") //reads simplified version of CA
// --------------- Creating lists-----------------
//xopen("lib/TP-lib.hoc")
//Tip_sections(apical_non_trunk_list,apical_trunk_list,"Apical")
//objref apical_tip_list
//apical_tip_list=TP_list // Apical Tip list
//print "apical_tip_list"//
//apical_tip_list.printnames()
//print "END apical_tip_list"
//objref tmp_pl[num_tips],pl[num_tips],opl[num_tips],degree_apical_tip,peri_trunk_list
//objref bl[num_tips],obl[num_tips],degree_basal_tip
//xopen("lib/Oblique-lib.hoc")
//oblique_sections(apical_tip_list,apical_trunk_list,num_tips) // apical dendrite path lists and degree of tips
xopen("lib/vector-distance.hoc")
//-----------------------------------------------------------------------------------------------------
printf("Setting up cell\n") // load cell-setup to
// specify all mechanisms, membrane properties etc
xopen("cell_setup_pc1a_noI2.hoc")
/*cvode_active(1)*/
////// Spike counter//////////
objref apc, v1
proc insert_APC() {
apc = new APCount(0.5)
apc.thresh = $1
v1 = new Vector()
apc.record(v1)
}
proc init() {
if(restart){
f1.ropen("state.old")
ss.fread(f1)
f1.close
finitialize(v_init)
ss.restore()
t=0
fcurrent()
cvode.re_init()
} else {
finitialize(v_init)
fcurrent()
}
}
////////////////////Main///////////////////
nsyn=10
objref s[nsyn], rsyn[nsyn], nc[nsyn]
objref rsynmda[nsyn], ncnmda[nsyn]
objref rect,recv,reci,savv,savi,savt
objref tvec,ampvec,iclamp
proc main(){
recv =new Vector()
rect =new Vector()
reci =new Vector()
//tol=cvode.atolscale(&soma.v(0.5),1e-5)
period=95.75
phase0=67.8234
dur=3
amp2=0.0
tstop=16000
in=0
th=-14
access soma
insert_APC(th)
f3.wopen("spike.dat")
current=0.0 // 0.18
del=50
npulse = 10
pulsdur = 1000
pulsamp = 0.33
starttime = 13000
curbase = 0.06//
apic[18] {
iclamp = new IClamp( 0.5 )
tvec = new Vector(5 )
ampvec = new Vector(5 )
}
iclamp.del = 0
iclamp.dur = 1e9
tvec.x[0 ] = 0
tvec.x[1 ] = starttime
tvec.x[2 ] = starttime + pulsdur
tvec.x[3 ] = starttime + 2*pulsdur
tvec.x[4 ] = tstop
ampvec.x[0 ] = curbase
ampvec.x[1 ] = curbase
ampvec.x[2 ] = curbase + pulsamp
ampvec.x[3 ] = curbase
ampvec.x[4 ] = curbase
ampvec.play(&iclamp.amp,tvec,1)
access apic[18]
recv.record(&v(0.5))
rect.record(&t)
reci.record(&iclamp.i)
///////////////////Load File//////////////////////
if(!back) { load_file("basicpc1a.ses") }//
//////////////run////////////////////////
run()
/////////////////////////////////////
savv= new File()
savt= new File()
savi = new File()
savv.wopen("dv.txt")
savt.wopen("dtime.txt")
savi.wopen("di.txt")
recv.printf(savv)
rect.printf(savt)
reci.printf(savi)
savv.close
savt.close
savi.close
// print the spike number
if(!back) printf("\n Current: %.4f nA | # Spikes: %d\n", current, apc.n)
if(!back) printf("___________________\n")
v1.printf(f3)
f3.close
f2.wopen("state.new")
ss.save
ss.fwrite(f2)
f2.close
}
main()
/******** end file ******/