some progress

2022-09-08 17:24:48 -04:00 · 2022-09-08 17:24:48 -04:00 · 0ecec626e2
parent 3e541653be
commit 0ecec626e2
1 changed files with 102 additions and 25 deletions
--- a/dashboard.py
+++ b/dashboard.py
@ -5,17 +5,21 @@ import math
 from random import randint
 import numpy as np

+#class Room():
+#  def __init__(self, points, Color)
+
 class DipoleMagnet():
  def __init__(self, EntryPos, Size, Angle, Color):
    self.radius = (Size[0] + Size[1])/2
    self.EntryPos = EntryPos
+    self.Angle = Angle
    self.Center = [ self.EntryPos[0] - self.radius * math.cos(math.radians(Angle[0])) , self.EntryPos[1] + self.radius * math.sin(math.radians(Angle[0])) ]
    self.ULC = [ self.Center[0] - Size[0], self.Center[1] - Size[0] ]
    self.ExistPos = np.array([self.Center[0] + self.radius * math.cos(math.radians(Angle[1])) , self.Center[1] - self.radius * math.sin(math.radians(Angle[1])) ])
    self.dMagnet1 = canvas.create_arc ( self.ULC[0], self.ULC[1], self.ULC[0] + 2*Size[0], self.ULC[1] + 2*Size[0], start = Angle[0], extent = Angle[1], fill = Color, outline = Color)
    self.dMagnet2 = canvas.create_arc ( self.ULC[0] + (Size[0] - Size[1]), self.ULC[1] + (Size[0] - Size[1]), self.ULC[0] + (Size[0] + Size[1]), self.ULC[1] + (Size[0] + Size[1]), start = Angle[0], extent = Angle[1], fill = 'black', outline = 'black')
-  def GetExitPos(self):
-    return self.ExistPos
+  def GetExitPos(self, downstream = 0):
+    return self.ExistPos + np.array([ downstream * math.cos(math.radians(self.Angle[1] + 90 )), -downstream * math.sin(math.radians(self.Angle[1] + 90 )) ])
    

 class Tandem():
@ -25,27 +29,50 @@ class Tandem():
    self.tandem1 = canvas.create_arc      (self.ULC[0], self.ULC[1]                    , self.ULC[0] + Size[0], self.ULC[1] + Size[0]             , start = 0, extent = 180, fill = Color, outline = Color)
    self.tandem2 = canvas.create_rectangle(self.ULC[0], self.ULC[1] + Size[0]/2        , self.ULC[0] + Size[0], self.ULC[1] + Size[1] - Size[0]/2 , fill = Color, outline = Color)
    self.tandem3 = canvas.create_arc      (self.ULC[0], self.ULC[1] + Size[1] - Size[0], self.ULC[0] + Size[0], self.ULC[1] + Size[1]             , start = 0, extent = -180, fill = Color, outline = Color)
-  def GetExitPos(self):
-    return self.ExistPos
+  def GetExitPos(self, downstream = 0):
+    return self.ExistPos + np.array([0, - downstream])
    
 class BeamRectElement():
  def __init__(self, EntryPos, Size, Angle, Color):
+    self.Color = Color
    self.p1 = [ EntryPos[0] - Size[0]/2 * math.cos(math.radians(Angle)), EntryPos[1] + Size[0]/2 * math.sin(math.radians(Angle))]
    self.p2 = [self.p1[0] + Size[0] * math.cos(math.radians(Angle)), self.p1[1] - Size[0] * math.sin(math.radians(Angle)) ]
    self.p3 = [self.p2[0] - Size[1] * math.sin(math.radians(Angle)), self.p2[1] - Size[1] * math.cos(math.radians(Angle)) ]
    self.p4 = [self.p3[0] - Size[0] * math.cos(math.radians(Angle)), self.p3[1] + Size[0] * math.sin(math.radians(Angle)) ]
    self.pts = [self.p1[0], self.p1[1], self.p2[0], self.p2[1], self.p3[0], self.p3[1], self.p4[0], self.p4[1] ]
+    self.Angle = Angle
    self.ExistPos = np.array([(self.p4[0] + self.p3[0])/2, (self.p4[1] + self.p3[1])/2 ])
    self.beamPipe = canvas.create_polygon(self.pts, fill = Color, width = 0)
-  def GetExitPos(self):
-    return self.ExistPos
+  def GetExitPos(self, downstream = 0):
+    return self.ExistPos + np.array([ - downstream * math.sin(math.radians(self.Angle )), - downstream * math.cos(math.radians(self.Angle )) ])
+  def SetColor(self, Color):
+    self.Color = Color
+    canvas.itemconfig(self.beamPipe, fill = Color)
+  def GetColor(self):
+    return self.Color

-class BeamFan():
-  def __init__(self, EntryPos, Size, Angle, Color):
-    self.beamFan = canvas.create_arc(   )
+class Beam90DegreeFan():
+  def __init__(self, EntryPos, Radius, Angle, Color):
+    self.EntryPos = np.array(EntryPos)
+    self.Radius = Radius
+    self.Angle = Angle
+    self.ULC = [EntryPos[0] - Radius, EntryPos[1] - Radius]
+    self.beamFan1 = BeamRectElement(EntryPos, [Radius/2, Radius/2], Angle, Color)
+    self.beamFan2 = canvas.create_arc( self.ULC[0], self.ULC[1], self.ULC[0] + 2 * Radius, self.ULC[1] + 2 * Radius  , start = 45 + Angle, extent = 90, fill = Color, outline = Color)
+  def GetExitPos(self, angle, downstream = 0):
+    return self.EntryPos +  np.array([ (self.Radius + downstream)* math.cos(math.radians( 45 + angle + self.Angle)), - (self.Radius + downstream)*math.sin(math.radians( 45 + angle + self.Angle))])
+  def GetExitAngle(self, angle):
+    return 45 + angle + self.Angle - 90
+
+class Station():
+  def __init__(self, Center, Size, Name, Color):
+    self.ULC = [Center[0] - Size/2, Center[1] - Size/2]
+    self.station = canvas.create_oval(self.ULC[0], self.ULC[1], self.ULC[0] + Size, self.ULC[1]+Size, fill = Color, outline = Color)
+    self.label = Label(canvas, text = Name, bg = Color)
+    self.label.place(x=Center[0], y=Center[1], anchor = "center")

 ############################## Start GUI
-windowSize = [3840, 1080]# 4K upper half
+windowSize = [3840, 1500]# 4K upper half

 window = Tk(className = 'FSU Fox\'s Lab Experimental Hall')
 #window.geometry("1920x1080") @ 2K
@ -65,37 +92,75 @@ canvas.pack( expand = True, fill = BOTH)

 #==================== Beam line

-#------- source 
+#++++++++++++++++ source 


-tandemStart = [windowSize[0] * 0.9, windowSize[1] * 0.9] # beam entry pos
+
+tandemStart = [windowSize[0] * 0.9, windowSize[1] * 0.8] # beam entry pos
 tandemSize = [100, 300] # width, height
 tandem  = Tandem(tandemStart, tandemSize, 'Green')

-bl1 = BeamRectElement( tandem.GetExitPos() , [10, 200], 0,  'white')
+bl0 = BeamRectElement( tandem.GetExitPos() , [10, 300], 0,  'white')

-bl1a = BeamRectElement( bl1.GetExitPos(), [10, 300], 0, 'grey') # beam by-pass D-1
+bl0a = BeamRectElement( bl0.GetExitPos(), [10, 400], 0, 'grey12') # beam by-pass D-1

-q1 = BeamRectElement(tandem.GetExitPos() + [0, -50], [40, 30], 0, 'orange')
-q2 = BeamRectElement(q1.GetExitPos() + [0, -50], [40, 30], 0, 'orange')
+q1 = BeamRectElement(tandem.GetExitPos(50) , [60, 60], 0, 'Blue')
+df1 = BeamRectElement(q1.GetExitPos(50) , [40, 30], 0, 'orange')
+df2 = BeamRectElement(df1.GetExitPos(20), [40, 30], 0, 'orange')

-#-------- beam line to target room 1
+
+#++++++++++++++++ beam line to target room 1
 dMagnetSize = [80, 20] # outer, inner radius
-d1 = DipoleMagnet(bl1.GetExitPos(), dMagnetSize, [0, 90], 'Yellow')
+d1 = DipoleMagnet(bl0.GetExitPos(), dMagnetSize, [0, 90], 'Yellow')

-bl2 = BeamRectElement( d1.GetExitPos(), [10, 100], 90, 'white')
+bl1 = BeamRectElement( d1.GetExitPos(), [10, 100], 90, 'white')
+
+bfan1 = Beam90DegreeFan(bl1.GetExitPos(), 100, 90, 'Yellow')
+
+#-------- upper beam line
+angle_a = 30
+beamline1Angle_a = bfan1.GetExitAngle(angle_a)
+bl1a = BeamRectElement( bfan1.GetExitPos(angle_a), [10, 350], beamline1Angle_a, 'white')
+
+q1a = BeamRectElement(bfan1.GetExitPos(angle_a, 100), [60, 60], beamline1Angle_a, 'blue')
+df1a = BeamRectElement(q1a.GetExitPos(30), [40, 30], beamline1Angle_a, 'orange')
+
+bl1a_1 = BeamRectElement( bl1a.GetExitPos(), [10, 200], beamline1Angle_a, 'white')
+
+#.......... Gamma station
+GammaStation = Station(bl1a.GetExitPos(), 100, "Gamma\nStation", 'Pink4')
+
+#.......... Catrina
+Catrina = Station(bl1a_1.GetExitPos(), 100, "Catrina", 'Pink')
+
+#---------middle beam line
+angle_b = 50
+beamline1Angle_b = bfan1.GetExitAngle(angle_b)
+bl1b = BeamRectElement( bfan1.GetExitPos(angle_b), [10, 300], beamline1Angle_b, 'grey12')
+
+#--------- lower beam line
+angle_c = 70
+beamline1Angle_c = bfan1.GetExitAngle(angle_c)
+bl1c = BeamRectElement( bfan1.GetExitPos(angle_c), [10, 300], beamline1Angle_c, 'grey12')
+q1c = BeamRectElement(bfan1.GetExitPos(angle_c, 100), [60, 60], beamline1Angle_c, 'blue')
+df1c = BeamRectElement(q1c.GetExitPos(50), [40, 30], beamline1Angle_c, 'orange')


+#++++++++++++++++ beam line to target room 2

+q2 = BeamRectElement( bl0.GetExitPos(100), [60, 60], 0, 'blue')

-#-------- beam line to target room 2
-d2 = DipoleMagnet(bl1a.GetExitPos(), [80, 20], [0, 90], 'Yellow')
+df2 = BeamRectElement( q2.GetExitPos(50), [40, 40], 0, 'orange')

-bl3 = BeamRectElement(d2.GetExitPos(), [10, 2000], 90, 'grey')
+q3 = BeamRectElement( df2.GetExitPos(50), [60, 60], 0, 'blue')

-linac1 = BeamRectElement(d2.GetExitPos() + [-500, 0], [80, 300], 90, 'cyan')
-linac2 = BeamRectElement(linac1.GetExitPos() + [-30, 0], [80, 300], 90, 'cyan')
-linac3 = BeamRectElement(linac2.GetExitPos() + [-30, 0], [80, 300], 90, 'cyan')
+d2 = DipoleMagnet(bl0a.GetExitPos(), [80, 20], [0, 90], 'Yellow')
+
+bl3 = BeamRectElement(d2.GetExitPos(), [10, 2000], 90, 'grey12')
+
+linac1 = BeamRectElement(d2.GetExitPos(500) , [80, 300], 90, 'cyan')
+linac2 = BeamRectElement(linac1.GetExitPos(30) , [80, 300], 90, 'cyan')
+linac3 = BeamRectElement(linac2.GetExitPos(30) , [80, 300], 90, 'cyan')


 #==================== Labels and info
@ -114,9 +179,21 @@ exit_button.place(x = windowSize[0] - 200, y = 50)



+###################### Beam line activation

 def update():
  label['text'] = "Pressure : "+ str(randint(0, 1000)) + " bar"
+  if bl0.GetColor() == 'Red' :
+    bl0.SetColor('White')
+    bl1.SetColor('White')
+    bl1a.SetColor('White')
+    bl1a_1.SetColor('White')
+  else:
+    bl0.SetColor('Red')
+    bl1.SetColor('Red')
+    bl1a.SetColor('Red')
+    bl1a_1.SetColor('Red')
+     
  window.after(1000, update) # run itself again after 1000 ms

 update()