// fig3bottom.ses
// Tom Morse 20080809
// This figure was created by
// 1) creating seven windows by
// the NEURON main menu: Graph -> State Axis, right click on graph
// then select "Plot what?" and then selecting each conductance, e.g.
// soma.gbarcat_gbarcat.  
// 2) saving all seven windows simultaneously under the NEURON main
// menu: Window -> Print and File Window Manager.  (I clicked on all
// seven windows and then saved them under Session: fig3bottom.ses file name)
// 3) I opened this file in an editor and added fig3bottom_g[] variables
// so that I could control these windows by hoc code.  I also added HBox
// statements so that the windows would appear similarly to the paper.
// and I added repositionlabel_ variables
objref hbox
hbox = new HBox()
hbox.intercept(1)
objref fig3bottom_g[7]  // used to execute View = plot latter
repositionlabel_x = 0.95 // 0-1 represents the graph size for these
repositionlabel_y = 0.47

objectvar save_window_, rvp_
objectvar scene_vector_[10]
objectvar ocbox_, ocbox_list_, scene_, scene_list_
{ocbox_list_ = new List()  scene_list_ = new List()}
{
save_window_ = new Graph(0)
fig3bottom_g[0] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[6] = save_window_
{save_window_.view(0, 0, 500000, 1, 347, 736, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarcat_gbarcat( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[1] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[4] = save_window_
{save_window_.view(0, 0, 500000, 1, 127, 658, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarcas_gbarcas( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[2] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[5] = save_window_
{save_window_.view(0, 0, 500000, 1, 16, 735, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbara_gbara( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[3] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[7] = save_window_
{save_window_.view(0, 0, 500000, 1, 676, 734, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarkca_gbarkca( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[4] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[3] = save_window_
{save_window_.view(0, 0, 500000, 1, 476, 653, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarh_gbarh( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[5] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[9] = save_window_
{save_window_.view(0, 0, 500000, 1, 1016, 733, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarna_gbarna( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
{
save_window_ = new Graph(0)
fig3bottom_g[6] = save_window_
save_window_.size(0,500000,0,1)
scene_vector_[8] = save_window_
{save_window_.view(0, 0, 500000, 1, 944, 653, 300.48, 200.32)}
graphList[2].append(save_window_)
save_window_.save_name("graphList[2].")
save_window_.addvar("soma.gbarkd_gbarkd( 0.5 )", 1, 1,repositionlabel_x,repositionlabel_y, 2)
}
objectvar scene_vector_[1]
{doNotify()}

hbox.intercept(0)
hbox.map()