{load_file("nrngui.hoc")}
objectvar save_window_, rvp_
objectvar scene_vector_[3]
objectvar ocbox_, ocbox_list_, scene_, scene_list_
{ocbox_list_ = new List()  scene_list_ = new List()}
{pwman_place(0,0,0)}

//Begin FunctionFitter
{
load_file("funfit.hoc")
}
{
ocbox_=new FunctionFitter()

ocbox_.info("t","Aa vhalfa ka Ab vhalfb kb", "(Aa/(1+exp((t-vhalfa)/ka)))/(Aa/(1+exp((t-vhalfa)/ka))+Ab/(1+exp((t-vhalfb)/kb)))", -140, -20, 0, 60, 100, -140, -20)
}
{object_push(ocbox_)}
{
args.x[0] = 0.4
arglow.x[0] = -1e+06
arghigh.x[0] = 1e+06
doargfit.x[0] = 1
args.x[1] = -100
arglow.x[1] = -1e+06
arghigh.x[1] = 1e+06
doargfit.x[1] = 1
args.x[2] = 10
arglow.x[2] = -1e+06
arghigh.x[2] = 1e+06
doargfit.x[2] = 1
args.x[3] = 0.4
arglow.x[3] = -1e+06
arghigh.x[3] = 1e+06
doargfit.x[3] = 1
args.x[4] = -50
arglow.x[4] = -1e+06
arghigh.x[4] = 1e+06
doargfit.x[4] = 1
args.x[5] = -10
arglow.x[5] = -1e+06
arghigh.x[5] = 1e+06
doargfit.x[5] = 1
init_weights(1)
w_boundary.x[0] = -1e+06
w_weight.x[0] = 1
w_boundary.x[1] = 9e+06
w_weight.x[1] = 1
}
{doplt() argpanel()}
{object_pop()}
{
{
save_window_=ocbox_.g
save_window_.size(0,10,-10,10)
scene_vector_[2] = save_window_
ocbox_.g = save_window_
save_window_.save_name("ocbox_.g")
}
ocbox_ = ocbox_.vbox
ocbox_.map("FunctionFitter", 508, 380, 612, 471.6)
}
objref ocbox_
//End FunctionFitter

objectvar scene_vector_[1]
{doNotify()}