//genesis
//IF2.g
function add_output
create asc_file /output/plot_out
setfield /output/plot_out flush 1 leave_open 1 append 1 \
float_format %0.6g
useclock /output/plot_out 1
addmsg /cell/soma /output/plot_out SAVE Vm
addmsg /cell/soma/BK_channel /output/plot_out SAVE Gk
addmsg /cell/soma/SK_channel /output/plot_out SAVE Gk
addmsg /cell/secdend11/BK_channel /output/plot_out SAVE Gk
addmsg /cell/secdend11/SK_channel /output/plot_out SAVE Gk
addmsg /cell/soma/BK_channel /output/plot_out SAVE Ik
addmsg /cell/soma/SK_channel /output/plot_out SAVE Ik
addmsg /cell/secdend11/BK_channel /output/plot_out SAVE Ik
addmsg /cell/secdend11/SK_channel /output/plot_out SAVE Ik
/*
addmsg /cell/soma/CaR_channelGHK /output/plot_out SAVE Gk
addmsg /cell/soma/CaN_channelGHK /output/plot_out SAVE Gk
addmsg /cell/soma/CaT_channelGHK /output/plot_out SAVE Gk
addmsg /cell/soma/CaL13_channelGHK /output/plot_out SAVE Gk
addmsg /cell/soma/CaL12_channelGHK /output/plot_out SAVE Gk
addmsg /cell/secdend11/CaR_channelGHK /output/plot_out SAVE Gk
addmsg /cell/secdend11/CaN_channelGHK /output/plot_out SAVE Gk
addmsg /cell/secdend11/CaT_channelGHK /output/plot_out SAVE Gk
addmsg /cell/secdend11/CaL13_channelGHK /output/plot_out SAVE Gk
addmsg /cell/secdend11/CaL12_channelGHK /output/plot_out SAVE Gk
addmsg /cell/tertdend1_1/CaR_channelGHK /output/plot_out SAVE Gk
addmsg /cell/tertdend1_1/CaN_channelGHK /output/plot_out SAVE Gk
addmsg /cell/tertdend1_1/CaT_channelGHK /output/plot_out SAVE Gk
addmsg /cell/tertdend1_1/CaL13_channelGHK /output/plot_out SAVE Gk
addmsg /cell/tertdend1_1/CaL12_channelGHK /output/plot_out SAVE Gk
addmsg /cell/soma/fluorescence /output/plot_out SAVE ratio
addmsg /cell/primdend1/fluorescence /output/plot_out SAVE ratio
addmsg /cell/secdend12/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_1/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_2/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_3/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_4/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_5/fluorescence /output/plot_out SAVE ratio
addmsg /cell/tertdend1_6/fluorescence /output/plot_out SAVE ratio
addmsg /cell/soma/volavg /output/plot_out SAVE meanValue
addmsg /cell/primdend1/volavg /output/plot_out SAVE meanValue
addmsg /cell/secdend12/volavg /output/plot_out SAVE meanValue
addmsg /cell/tertdend1_1/volavg /output/plot_out SAVE meanValue
addmsg /cell/tertdend1_5/volavg /output/plot_out SAVE meanValue
addmsg /cell/tertdend1_9/volavg /output/plot_out SAVE meanValue
*/
//call /output/plot_out OUT_OPEN
// call /output/plot_out OUT_WRITE "time SomaVm somafura primfura secfura tert1fura" //header
end
add_output
str stimtype
stimtype="BKSK700pA+"
diskpath={diskpath}@(stimtype)@".txt"
echo {diskpath}
setfield /output/plot_out filename output/{diskpath}
reset
call /output/plot_out OUT_OPEN
call /output/plot_out OUT_WRITE "time SomaVm somaBKg somaSKg secBKg secSKg somaBKi somaSKi secBKi secSKi" //header
int i = 0
float inj = 700e-12 //990e-12 //640e-12 //280e-12
float inject, delay, current_duration, total_duration
float start_current = 0
delay= 0.1
current_duration=0.3
total_duration=delay*2+current_duration
reset
for (i=0; i<5; i=i+1)
call /output/plot_out OUT_WRITE "/newplot"
call /output/plot_out OUT_WRITE "/plotname "{inj*1e9}
echo {inj} = "I inject"
setfield {neuronname}/soma inject {start_current}
step {delay} -time
setfield {neuronname}/soma inject {inj}
step {current_duration} -time
setfield {neuronname}/soma inject {start_current}
step {{delay}+0.1} -time
reset
inj= {inj}+100.0e-12
end
call /output/plot_out FLUSH
//gen2spkShape output/{diskpath} {delay} {current_duration} {total_duration} -stepsize {outputclock}