/*
* Loads model files and creates GUI panels. Includes procedure for generating shape plots of cells
* AUTHOR: Aman Aberra, Duke University
* CONTACT: aman.aberra@duke.edu
*/
{load_file("nrngui.hoc")}
// {load_file("interpCoordinates.hoc")}
// {load_file("setPointers.hoc")}
// {load_file("calcVe.hoc")}
// {load_file("stimWaveform.hoc")}
// {load_file("cellChooser.hoc")}
{load_file("setParams.hoc")}
{load_file("editMorphology.hoc")} // procs for editing cell morphology
// {load_file("rig.ses")}
// createPanels() // in setParams.hoc
/*
objref soma_point3
// color_plotmax(plot_mode,save_fig)
// plot_mode: 1 colors nodes of Ranvier, Myelin, and Unmyelinated axon separately (default)
// 2 colors main axon in red, rest of axon black
// save_fig: 1 saves figure "cell<cell_id>.eps", 0 just plots (default)
proc color_plotmax() { local plot_mode,save_fig
if (numarg() > 0){
plot_mode = $1
} else {
plot_mode = 1 // default mode 1
}
if (numarg() > 1){
save_fig = $2
} else {
save_fig = 0 // default don't save
}
load_file(0,"anatscale.hoc")
anatscale(400,0,0,250) // origin xyz and length
shplot = new Shape(0)
shplot.view(-1568.93, -1200, 2837.86, 1700, 607, 93, 530, 320)
shplot.color_list(cell.axonal,1)
if (plot_mode == 1) {
if (myelinate_ax) {
shplot.color_list(iseg_secList,5)
shplot.color_list(Node_secList,2)
shplot.color_list(Myelin_secList,1)
shplot.color_list(Unmyelin_secList,5)
}
} else if (plot_mode == 2) {
shplot.color_list(main_ax_list,2)
}
shplot.color_list(cell.apical,3)
shplot.color_list(cell.basal,4)
cell.soma soma_point3 = new IClamp(0.5)
shplot.point_mark(soma_point3,1,"O",10)
shplot.exec_menu("View = plot")
if (save_fig) {
strdef cellfile
sprint(cellfile,"Cell%g.eps",cell_id)
shplot.printfile(cellfile)
}
}
*/