import numpy as np import make_timetables as mp import subprocess sim_name = 'MSsim' ISIs = [-.23,-.13,-.08,-.06,-.07,-0.04,-0.005,0.005,.01,.02,.03,.05,.1,.2] text_sim_1 = '''include SimParams.g include MScell/globals.g include MScell/Ca_constants.g include MScell/SynParamsCtx.g include MScell/spineParams.g include MScell/MScellSynSpines // access make_MS_cell include InOut/add_output.g //functions for ascii file output include InOut/IF.g //function to create pulse generator for current injection, also IF & IV curves include InOut/HookUp.g setclock 0 {simdt} setclock 1 {simdt} str DA = "UI" str Location = "tertdend1_1" str jitter = "No" int jitter_int = 0 int seedvalue = 5757538 GABAYesNo = 0 ''' #here Protocol and Timing text_sim_2 = """ str diskpath="SimData/"@{Protocol}@"_"@{DA}@"_"@{Timing}@"_"@{Location}@"_randseed_"@{seedvalue}@"_high_res" int totspine={make_MS_cell_SynSpine {neuronname} {pfile} {spinesYesNo} {DA}} reset Vmhead={add_outputVm {comps} {Vmfile} {neuronname}} if ({CaOut}) if ( {calciumdye} == 0) Cafile = "Ca_plasticity" elif ( {calciumdye} == 1) Cafile = "Ca_Fura_2_plasticity" elif ( {calciumdye} == 2) Cafile = "Ca_Fluo_5f_plasticity" elif ( {calciumdye} == 3) Cafile = "Ca_Fluo_4_plasticity" else Cafile = "Ca_unnkown_dye_plasticity" end Cahead={add_outputCal {comps} {CaBufs} {Cafile} {neuronname}} else Cafile="X_plasticity" Cahead="" end if ({GkOut}) Gkfile="Gk_plasticity" Gkhead={add_outputGk {comps} {chans} {Gkfile} {neuronname}} else Gkfile="X_plasticity" Gkhead="" end str stimcomp= {Location} str spinefile="spine_plasticity" ce / """ #here include paradigm #and change ISI text_sim_3 = ''' float newTrainFreq = {burstFreq}/{numbursts} echo {newTrainFreq} HookUp {prestim} {Protocol} {Timing} {stimcomp} {diskpath} {numAP} {inject} {AP_durtime} {APinterval} {ISI} {pulseFreq} {pulses} {burstFreq} {numbursts} {newTrainFreq} 1 {jitter_int} reset step 1.5 -time fileFLUSH {Vmfile} fileFLUSH {Cafile} fileFLUSH {Gkfile} fileFLUSH {spinefile} fileFLUSH {somainjfile} ''' if __name__ == '__main__': params = mp.read_file('SimParams.g') gabaYesNo = mp.find_value(params,'GABAYesNo','Pre') spines = mp.find_string(params,'whichSpines','Pre') stim_start = mp.find_value(params,'initSim','Pre') print stim_start too_fast = mp.find_value(params,'TooFast','Pre') print gabaYesNo, spines, stim_start, too_fast protocols = ['InOut/Fino.g','InOut/P_K.g'] timings = ['Pre'] paradigm_names = ['Fino','P_and_K'] for ISI in ISIs: for timing in timings: for i, protocol in enumerate(protocols): print protocol text = mp.read_file(protocol) #find pulseFreq freq = mp.find_value(text, 'pulseFreq',timing) npulses = mp.find_value(text, 'pulses',timing) nbursts = mp.find_value(text, 'numbursts',timing) burstfreq = mp.find_value(text, 'burstFreq',timing) ntrains = mp.find_value(text, 'numtrains',timing) trainfreq = mp.find_value(text, 'trainFreq',timing) print freq, npulses, nbursts, burstfreq, ntrains, trainfreq if npulses == None: npulses = 1 fname_base = paradigm_names[i]+'_'+timing+'_stimulation_' spine_list = ['spine_1'] print fname_base mp.distribute(freq,npulses,burstfreq,nbursts,trainfreq,ntrains,stim_start,fname_base,spine_list) sim_file = sim_name+'_'+paradigm_names[i]+'_ISI_'+str(ISI)+'.g' fil = open(sim_file,'w') fil.write(text_sim_1) fil.write('str Protocol = "'+paradigm_names[i]+'"\n') fil.write('str Timing = "'+timing+'"\n') fil.write(text_sim_2) fil.write("include "+protocol+'\n') fil.write("ISI = "+str(ISI)+'\n') fil.write(text_sim_3) fil.close() process = subprocess.Popen(['/home/asia/genesis-2.4/chemesis','-nox','-notty','-batch',sim_file]) ret = process.wait()