def draw(self): emission=False lines=[] for i in range(0,epitaxy_get_layers()): if epitaxy_get_pl_file(i)!="none": if inp_load_file(lines,epitaxy_get_pl_file(i)+".inp")==True: if str2bool(lines[1])==True: emission=True tot=0 for i in range(0,epitaxy_get_layers()): tot=tot+epitaxy_get_width(i) pos=0.0 l=epitaxy_get_layers()-1 lines=[] for i in range(0,epitaxy_get_layers()): thick=200.0*epitaxy_get_width(l-i)/tot pos=pos+thick path=os.path.join(get_materials_path(),epitaxy_get_mat_file(l-i),"mat.inp") if inp_load_file(lines,path)==True: red=float(inp_search_token_value(lines, "#Red")) green=float(inp_search_token_value(lines, "#Green")) blue=float(inp_search_token_value(lines, "#Blue")) else: print "Could not load",path red=0.0 green=0.0 blue=0.0 self.draw_box(200,450.0-pos,thick*0.9,red,green,blue,l-i) step=50.0 lines=[] if inp_load_file(lines,os.path.join(os.getcwd(),"light.inp"))==True: self.sun=float(inp_search_token_value(lines, "#Psun")) if self.sun<=0.01: step=200 elif self.sun<=0.1: step=100 elif self.sun<=1.0: step=50 elif self.sun<=10.0: step=10 else: step=5.0 if self.sun!=0: for x in range(0,200,step): self.draw_photon(270+x,50) if emission==True: for x in range(0,200,50): self.draw_photon_up(240+x,180) self.draw_mode(200,250,200)
def create_model(self):
self.tab.clear()
self.tab.setColumnCount(6)
if enable_betafeatures() == False:
self.tab.setColumnHidden(5, True)
self.tab.setColumnHidden(4, True)
self.tab.setSelectionBehavior(QAbstractItemView.SelectRows)
self.tab.setHorizontalHeaderLabels([
_("Layer name"),
_("Thicknes"),
_("Optical material"),
_("Layer type"),
_("DoS Layer"),
_("PL Layer")
])
self.tab.setColumnWidth(2, 250)
self.tab.setRowCount(epitaxy_get_layers())
for i in range(0, epitaxy_get_layers()):
thick = epitaxy_get_width(i)
material = epitaxy_get_mat_file(i)
dos_layer = epitaxy_get_electrical_layer(i)
pl_file = epitaxy_get_pl_file(i)
name = epitaxy_get_name(i)
self.add_row(i, thick, material, dos_layer, pl_file, name)
return
def update(self):
self.notebook.clear()
files = epitaxy_get_dos_files()
for i in range(0, epitaxy_get_layers()):
pl_file = epitaxy_get_pl_file(i)
if pl_file.startswith("pl") == True:
widget = QWidget()
name = _("Luminescence of ") + epitaxy_get_name(i)
widget = tab_class(pl_file + ".inp")
self.notebook.addTab(widget, name)
def update(self):
self.notebook.clear()
files=epitaxy_get_dos_files()
for i in range(0,epitaxy_get_layers()):
pl_file=epitaxy_get_pl_file(i)
if pl_file.startswith("pl")==True:
widget = QWidget()
name="Luminescence of "+epitaxy_get_name(i)
print(pl_file,files)
widget=tab_class()
widget.init(pl_file+".inp",name)
self.notebook.addTab(widget,name)
def create_model(self):
self.tab.clear()
self.tab.setColumnCount(6)
if enable_betafeatures()==False:
self.tab.setColumnHidden(5, True)
self.tab.setColumnHidden(4, True)
self.tab.setSelectionBehavior(QAbstractItemView.SelectRows)
self.tab.setHorizontalHeaderLabels([_("Layer name"), _("Thicknes"), _("Optical material"), _("Layer type"), _("DoS Layer"),_("PL Layer")])
self.tab.setRowCount(epitaxy_get_layers())
for i in range(0,epitaxy_get_layers()):
thick=epitaxy_get_width(i)
material=epitaxy_get_mat_file(i)
dos_layer=epitaxy_get_electrical_layer(i)
pl_file=epitaxy_get_pl_file(i)
name=epitaxy_get_name(i)
self.add_row(i,thick,material,dos_layer,pl_file,name)
return
def update(self): print "PL update" for child in self.notebook.get_children(): self.notebook.remove(child) files=epitaxy_get_dos_files() for i in range(0,epitaxy_get_layers()): pl_file=epitaxy_get_pl_file(i) if pl_file!="none": add_to_widget=True tab=tab_class() tab.show() tab.visible=True name="Luminescence of "+epitaxy_get_name(i) print pl_file,files tab.init(pl_file+".inp",name) tab.label_name=name self.notebook.append_page(tab, gtk.Label(name))
def __create_model(self):
# create list store
model = gtk.ListStore(str,str,str,str,str,str,str)
# add items
self.rebuild_mat_list()
for i in range(0,epitaxy_get_layers()):
thick=epitaxy_get_width(i)
material=epitaxy_get_mat_file(i)
dos_layer=epitaxy_get_electrical_layer(i)
pl_file=epitaxy_get_pl_file(i)
name=epitaxy_get_name(i)
dos_file=""
if dos_layer=="none":
dos_file=_("no")
else:
dos_file=_("yes")
scan_item_add("epitaxy.inp","#layer"+str(i),_("Material for ")+str(material),2)
scan_item_add("epitaxy.inp","#layer"+str(i),_("Layer width ")+str(material),1)
iter = model.append()
model.set (iter,
COLUMN_NAME, str(name),
COLUMN_THICKNES, str(thick),
COLUMN_MATERIAL, str(material),
COLUMN_DEVICE, str(dos_file),
COLUMN_DOS_LAYER, str(dos_layer),
COLUMN_PL_FILE, str(pl_file)
)
return model
def render(self):
#print("do draw")
clear_color()
glClearColor(self.view.bg_color[0], self.view.bg_color[1], self.view.bg_color[2], 0.5)
gl_save_clear()
dos_start=-1
dos_stop=-1
epi_y_len=epitaxy_get_y_len()
if epi_y_len<=0:
return
self.x_mul=1e3
self.y_mul=self.gl_device_height/epi_y_len
self.z_mul=1e3
x_len=mesh_get_xlen()
max_gui_device_x=x_len*self.x_mul
max_gui_device_y=1.0
max_gui_device_z=mesh_get_zlen()*self.z_mul
l=epitaxy_get_layers()-1
xpoints=int(mesh_get_xpoints())
ypoints=int(mesh_get_ypoints())
zpoints=int(mesh_get_zpoints())
if ypoints>10:
ypoints=10
if xpoints>10:
xpoints=10
if ypoints>10:
ypoints=10
self.emission=False
self.ray_model=False
lines=inp_load_file(os.path.join(get_sim_path(),"led.inp"))
if lines!=False:
self.ray_model=val=str2bool(inp_search_token_value(lines, "#led_on"))
lines=[]
for i in range(0,epitaxy_get_layers()):
if epitaxy_get_pl_file(i)!="none":
lines=inp_load_file(os.path.join(get_sim_path(),epitaxy_get_pl_file(i)+".inp"))
if lines!=False:
if str2bool(lines[1])==True:
self.emission=True
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
glLoadIdentity()
glTranslatef(self.view.x_pos, self.view.y_pos, self.view.zoom) # Move Into The Screen
glRotatef(self.view.xRot, 1.0, 0.0, 0.0)
glRotatef(self.view.yRot, 0.0, 1.0, 0.0)
glRotatef(self.view.zRot, 0.0, 0.0, 1.0)
glColor3f( 1.0, 1.5, 0.0 )
glPolygonMode(GL_FRONT, GL_FILL);
threed_files=glob.glob("*.3d")
if len(threed_files)>0:
gl_save_load()
gl_save_draw()
draw_grid()
return
#glClearColor(0.92, 0.92, 0.92, 0.5) # Clear to black.
lines=[]
pos=0.0
for i in range(0,epitaxy_get_layers()):
thick=epitaxy_get_width(l-i)*self.y_mul
obj=epitaxy_get_layer(l-i)
red=obj.r
green=obj.g
blue=obj.b
alpha=obj.alpha
if i==l-self.selected_layer:
box_lines(0.0,pos,0,max_gui_device_x,thick,max_gui_device_z)
if epitaxy_get_electrical_layer(l-i).startswith("dos")==True and ypoints!=0 and xpoints!=0 and zpoints!=0:
dy=thick/float(ypoints)
dx=max_gui_device_x/float(xpoints)
dz=max_gui_device_z/float(zpoints)
xshrink=0.8
zshrink=0.8
if dos_start==-1:
dos_start=pos
dos_stop=pos+thick
if xpoints==1:
xshrink=1.0
if zpoints==1:
zshrink=1.0
if xpoints==1 and zpoints==1:
box(0.0,pos,0,max_gui_device_x,thick,max_gui_device_z,red,green,blue,alpha)
else:
for y in range(0,ypoints):
for x in range(0,xpoints):
for z in range(0,zpoints):
box(dx*x,pos+y*(dy),z*dz,dx*xshrink,dy*0.8,dz*zshrink,red,green,blue,alpha)
if self.tab_active_layers==True:
tab(0.0,pos,max_gui_device_z,max_gui_device_x,thick,max_gui_device_z)
elif epitaxy_get_electrical_layer(l-i).lower()=="contact" and (i==l or i==0):
for c in contacts_get_array():
if (c.position=="top" and i==l) or (c.position=="bottom" and i==0):
if xpoints==1 and zpoints==1:
xstart=0.0
xwidth=max_gui_device_x
else:
xstart=max_gui_device_x*(c.start/x_len)
xwidth=max_gui_device_x*(c.width/x_len)
#print("contacts",xstart,xwidth,c.width,x_len)
if (c.start+c.width)>x_len:
xwidth=max_gui_device_x-xstart
if c.depth>0.0:
etch_depth=c.depth*self.y_mul
if c.position=="top":
box(xstart,pos-etch_depth-self.dy_layer_offset,0,xwidth,etch_depth,max_gui_device_z,0.0,0.0,1.0,1.0)
else:
box(xstart,pos+self.dy_layer_offset+thick,0,xwidth,etch_depth,max_gui_device_z,0.0,0.0,1.0,1.0)
if c.active==True:
box(xstart,pos,0,xwidth,thick,max_gui_device_z,0.0,1.0,0.0,alpha)
else:
box(xstart,pos,0,xwidth,thick,max_gui_device_z,red,green,blue,alpha)
else:
box(0.0,pos,0,max_gui_device_x,thick,max_gui_device_z,red,green,blue,alpha)
if self.view.render_text==True:
if epitaxy_get_electrical_layer(l-i).startswith("dos")==True:
text=epitaxy_get_name(l-i)+" ("+_("active")+")"
else:
text=epitaxy_get_name(l-i)
set_color(1.0,1.0,1.0,"text")
font = QFont("Arial")
font.setPointSize(18)
if self.view.zoom>-20:
self.renderText (max_gui_device_x+0.1,pos+thick/2,max_gui_device_z, text,font)
pos=pos+thick+self.dy_layer_offset
draw_mode(pos-self.dy_layer_offset,max_gui_device_z)
draw_rays(self.ray_file,pos-self.dy_layer_offset,max_gui_device_x,self.y_mul,max_gui_device_z*1.05)
#print(self.graph_path)
if self.view.render_photons==True:
#print(pos)
self.draw_photons(max_gui_device_x,pos,max_gui_device_z)
full_data_range=self.graph_z_max-self.graph_z_min
graph(0.0,dos_start,max_gui_device_z+0.5,max_gui_device_x,dos_stop-dos_start,full_data_range,self.graph_data)
if self.view.render_grid==True:
draw_grid()
if self.view.zoom<-60:
draw_stars()
def drawWidget(self, qp):
font = QFont('Sans', 11, QFont.Normal)
qp.setFont(font)
emission = False
lines = []
for i in range(0, epitaxy_get_layers()):
if epitaxy_get_pl_file(i) != "none":
lines = inp_load_file(epitaxy_get_pl_file(i) + ".inp")
if lines != False:
if str2bool(lines[1]) == True:
emission = True
tot = 0
for i in range(0, epitaxy_get_layers()):
tot = tot + epitaxy_get_width(i)
pos = 0.0
l = epitaxy_get_layers() - 1
lines = []
for i in range(0, epitaxy_get_layers()):
red = 0.0
green = 0.0
blue = 0.0
thick = 200.0 * epitaxy_get_width(l - i) / tot
pos = pos + thick
path = os.path.join(get_materials_path(),
epitaxy_get_mat_file(l - i), "mat.inp")
lines = inp_load_file(path)
if lines != False:
ret = inp_search_token_array(lines, "#red_green_blue")
if ret != False:
red = float(ret[0])
green = float(ret[1])
blue = float(ret[2])
self.draw_box(qp, 200, 450.0 - pos, thick * 0.9, red, green, blue,
l - i)
step = 50.0
lines = inp_load_file(os.path.join(get_sim_path(), "light.inp"))
if lines != False:
self.sun = float(inp_search_token_value(lines, "#Psun"))
if self.sun <= 0.01:
step = 200
elif self.sun <= 0.1:
step = 100
elif self.sun <= 1.0:
step = 50
elif self.sun <= 10.0:
step = 10
else:
step = 5.0
if self.sun != 0:
for x in range(0, 200, step):
self.draw_photon(qp, 210 + x, 100, False)
if emission == True:
for x in range(0, 200, 50):
self.draw_photon(qp, 240 + x, 140, True)
self.draw_mode(qp, 200, 250)
qp.drawText(40, 540 + 40, "No OpenGL support, using 2D fallback mode")
def drawWidget(self, qp):
font = QFont("Sans", 11, QFont.Normal)
qp.setFont(font)
emission = False
lines = []
for i in range(0, epitaxy_get_layers()):
if epitaxy_get_pl_file(i) != "none":
if inp_load_file(lines, epitaxy_get_pl_file(i) + ".inp") == True:
if str2bool(lines[1]) == True:
emission = True
tot = 0
for i in range(0, epitaxy_get_layers()):
tot = tot + epitaxy_get_width(i)
pos = 0.0
l = epitaxy_get_layers() - 1
lines = []
for i in range(0, epitaxy_get_layers()):
thick = 200.0 * epitaxy_get_width(l - i) / tot
pos = pos + thick
path = os.path.join(get_materials_path(), epitaxy_get_mat_file(l - i), "mat.inp")
if inp_load_file(lines, path) == True:
red = float(inp_search_token_value(lines, "#Red"))
green = float(inp_search_token_value(lines, "#Green"))
blue = float(inp_search_token_value(lines, "#Blue"))
else:
print("Could not load", path)
red = 0.0
green = 0.0
blue = 0.0
self.draw_box(qp, 200, 450.0 - pos, thick * 0.9, red, green, blue, l - i)
step = 50.0
lines = []
if inp_load_file(lines, os.path.join(os.getcwd(), "light.inp")) == True:
self.sun = float(inp_search_token_value(lines, "#Psun"))
if self.sun <= 0.01:
step = 200
elif self.sun <= 0.1:
step = 100
elif self.sun <= 1.0:
step = 50
elif self.sun <= 10.0:
step = 10
else:
step = 5.0
if self.sun != 0:
for x in range(0, 200, step):
self.draw_photon(qp, 210 + x, 100, False)
if emission == True:
for x in range(0, 200, 50):
self.draw_photon(qp, 240 + x, 140, True)
self.draw_mode(qp, 200, 250)
qp.drawText(40, 540 + 40, "No OpenGL support, using 2D fallback mode")
def paintGL(self):
if self.failed==False:
dos_start=-1
dos_stop=-1
self.x_mul=1e3
self.z_mul=1e3
width=mesh_get_xlen()*self.x_mul
depth=mesh_get_zlen()*self.z_mul
l=epitaxy_get_layers()-1
xpoints=int(mesh_get_xpoints())
ypoints=int(mesh_get_ypoints())
zpoints=int(mesh_get_zpoints())
x_len=mesh_get_xlen()
self.emission=False
self.ray_model=False
lines=[]
if inp_load_file(lines,"led.inp")==True:
self.ray_model=val=str2bool(inp_search_token_value(lines, "#led_on"))
lines=[]
for i in range(0,epitaxy_get_layers()):
if epitaxy_get_pl_file(i)!="none":
if inp_load_file(lines,epitaxy_get_pl_file(i)+".inp")==True:
if str2bool(lines[1])==True:
self.emission=True
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
glLoadIdentity()
glTranslatef(self.x_pos, self.y_pos, self.zoom) # Move Into The Screen
glRotatef(self.xRot, 1.0, 0.0, 0.0)
glRotatef(self.yRot, 0.0, 1.0, 0.0)
glRotatef(self.zRot, 0.0, 0.0, 1.0)
glColor3f( 1.0, 1.5, 0.0 )
glPolygonMode(GL_FRONT, GL_FILL);
#glClearColor(0.92, 0.92, 0.92, 0.5) # Clear to black.
glClearColor(0.0, 0.0, 0.0, 0.5)
lines=[]
if self.suns!=0:
if self.suns<=0.01:
den=1.4
elif self.suns<=0.1:
den=0.8
elif self.suns<=1.0:
den=0.6
elif self.suns<=10.0:
den=0.3
else:
den=0.2
x=np.arange(0, width , den)
z=np.arange(0, depth , den)
for i in range(0,len(x)):
for ii in range(0,len(z)):
draw_photon(x[i],z[ii],False)
if self.emission==True and self.ray_model==False:
den=0.6
x=np.arange(0, width , den)
y=np.arange(0, depth , den)
for i in range(0,len(x)):
for ii in range(0,len(y)):
draw_photon(x[i]+0.1,y[ii]+0.1,True)
tot=0
for i in range(0,epitaxy_get_layers()):
tot=tot+epitaxy_get_width(i)
pos=0.0
self.y_mul=0
if tot>0:
self.y_mul=1.5/tot
for i in range(0,epitaxy_get_layers()):
thick=epitaxy_get_width(l-i)*self.y_mul
red=self.colors[l-i].r
green=self.colors[l-i].g
blue=self.colors[l-i].b
if i==l-self.selected_layer:
box_lines(0.0,pos,0,width,thick,depth)
if epitaxy_get_electrical_layer(l-i).startswith("dos")==True:
dy=thick/float(ypoints)
dx=width/float(xpoints)
dz=depth/float(zpoints)
xshrink=0.8
zshrink=0.8
if dos_start==-1:
dos_start=pos
dos_stop=pos+thick
if xpoints==1:
xshrink=1.0
if zpoints==1:
zshrink=1.0
if xpoints==1 and zpoints==1:
box(0.0,pos,0,width,thick,depth,red,green,blue)
else:
for y in range(0,ypoints):
for x in range(0,xpoints):
for z in range(0,zpoints):
box(dx*x,pos+y*(dy),z*dz,dx*xshrink,dy*0.8,dz*zshrink,red,green,blue)
tab(0.0,pos,depth,width,thick,depth)
elif epitaxy_get_electrical_layer(l-i).lower()=="contact" and i==l:
if xpoints==1 and zpoints==1:
box(0.0,pos,0,width,thick,depth,red,green,blue)
else:
for c in contacts_get_array():
xstart=width*(c.start/x_len)
xwidth=width*(c.width/x_len)
#print("contacts",xstart,xwidth,c.width,x_len)
if (c.start+c.width)>x_len:
xwidth=width-xstart
if c.active==True:
box(xstart,pos,0,xwidth,thick,depth,0.0,1.0,0.0)
else:
box(xstart,pos,0,xwidth,thick,depth,red,green,blue)
else:
box(0.0,pos,0,width,thick,depth,red,green,blue)
if epitaxy_get_electrical_layer(l-i).startswith("dos")==True:
text=epitaxy_get_name(l-i)+" (active)"
else:
text=epitaxy_get_name(l-i)
glColor3f(1.0,1.0,1.0)
font = QFont("Arial")
font.setPointSize(18)
if self.zoom>-20:
self.renderText (width+0.1,pos+thick/2,depth, text,font)
pos=pos+thick+0.05
glRotatef(self.tet_rotate, tet_x_rate, tet_y_rate, tet_z_rate)
draw_mode(pos-0.05,depth)
draw_rays(self.ray_fast,pos-0.05,width,self.y_mul,depth*1.05)
#print(self.graph_path)
full_data_range=self.graph_z_max-self.graph_z_min
graph(0.0,dos_start,depth+0.5,width,dos_stop-dos_start,full_data_range,self.graph_data)
draw_grid()
if self.zoom<-60:
draw_stars()
