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GUI_class.py
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GUI_class.py
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# -*- coding: utf-8 -*-
from tkinter import ttk
import tkinter as tk
import PIL
from PIL import ImageTk
#--------------------------------------------
def APDD(base,to_add):
new_dic = {**base,**to_add}
return new_dic
def _TIH(str_input):
output = 0
if len(str_input) < 1:
output = 0
else:
try:
output = int(str_input)
except:
raise ValueError('''Input "{}" cannot be converted into an integer'''.format(str_input))
return output
def toint(str_input):
_type = type(str_input)
output = None
if _type == str:
output = _TIH(str_input)
elif _type == tuple:
output = tuple(_TIH(i) for i in str_input)
elif _type == int:
output = str_input
else:
print("Values entered must be integers")
raise ValueError
return output
class GUI(object):
def __init__(self,root,CMN,RMN,window_width=1200,window_height=400,fileformat='gif',icon_filename="PKS_Enumerator.ico"):
self.CFN = [motif+'.'+fileformat for motif in CMN]
self.RFN = [motif+'.'+fileformat for motif in RMN]
self.root = root
self.mainframe = tk.Frame(self.root)
self.AF = tk.Frame(self.root)
winSZ = str(window_width) + 'x' + str(window_height)
self.root.geometry(winSZ)
self.root.title("PKS Enumerator - North Carolina State Unversity")
self.root.iconbitmap(icon_filename)
def CBT(self):
self.GEBT = tk.Button(self.root,text="Generate")
self.label = tk.Label(self.root,text="THIS IS A LABEL")
def _make_MN(self,img_width=100,img_height=100):
self.MN = ttk.Notebook(self.mainframe)
self.CP = MTFPG(self.MN,self.CFN,img_width=img_width,img_height=img_height)
## self.RP = MTFPG(self.MN,self.RFN,img_width=img_width,img_height=img_height,entry_state='disabled')
self.RP = MTFPG(self.MN,self.RFN,img_width=img_width,img_height=img_height)
self.MN.add(self.CP,text='Common Structural Motifs')
self.MN.add(self.RP,text='Rare Structural Motifs')
self.MN.pack(side='left')
def _MRF(self):
self.RGTF = tk.Frame(self.mainframe,relief='sunken',bd=1)
self.MCSA = MCSE(self.RGTF)
self.LBSA = LBSS(self.RGTF)
self.MCSA.pack(padx=10,pady=10,fill='x')
self.LBSA.pack(padx=10,pady=10,fill='x')
self.RGTF.pack(side='right',padx=10)
def _MMF(self):
self._make_MN()
self._MRF()
self.mainframe.pack(padx=10,pady=10)
def _MAF(self,call_back):
self.STV = tk.StringVar(value='')
self.STL = tk.Label(self.AF,textvariable=self.STV)
self.GEBT = tk.Button(self.AF,text='Generate',command=call_back)
self.STL.pack(side='left',padx=10,pady=10)
self.GEBT.pack(padx=10,pady=10)
self.AF.pack(padx=10,pady=10,side='right')
def start(self,call_back):
self._MMF()
self._MAF(call_back)
def CLF(self):
self.STV.set('Program running')
SM_dic = {}
BR_dic = {}
SM_dic = APDD(SM_dic,self.CP.getETRE())
SM_dic = APDD(SM_dic,self.RP.getETRE())
BR_dic = APDD(BR_dic,self.MCSA.GIP())
BR_dic = APDD(BR_dic,self.LBSA.GIP())
return (SM_dic, BR_dic)
def USB(self,text=''):
self.STV.set(text)
class GEB(tk.Button):
def __init__(self,parent,text='Generate',**kwargs):
tk.Button.__init__(self,parent,text=text,**kwargs)
class MCSE(tk.Frame):
def __init__(self,parent,title='Per Macrocycle'):
tk.Frame.__init__(self,parent,bd=1,relief='sunken')
self.title = tk.Label(self,text=title)
self._setup()
def _setup(self):
self.labelCMF = tk.Label(self,text="Range of CM SMs from ")
self.DFCEMN = tk.StringVar(value='12')
self.RCSMF = tk.Entry(self,textvariable=self.DFCEMN)
self.LCSMT = tk.Label(self,text=" to ")
self.DFCEMX = tk.StringVar(value='12')
self.RCSMTT = tk.Entry(self,textvariable=self.DFCEMX)
self.LRRFR = tk.Label(self,text="Range of RR SMs from ")
self.DFREMN = tk.StringVar(value='0')
## self.RRRSMF = tk.Entry(self, state='disabled')
self.RRRSMF = tk.Entry(self, textvariable=self.DFREMN)
self.LRSMT = tk.Label(self,text=" to ")
self.DFREMX = tk.StringVar(value='0')
## self.RRSMTT = tk.Entry(self, state='disabled')
self.RRSMTT = tk.Entry(self, textvariable=self.DFREMX)
self.LTF = tk.Label(self,text="Range of Total SMs from ")
self.DFTEMN = tk.StringVar(value='12')
self.RTTSMF = tk.Entry(self,textvariable=self.DFTEMN)
self.LTLTO = tk.Label(self,text=" to ")
self.DFTEMX = tk.StringVar(value='12')
self.RTLSMT = tk.Entry(self,textvariable=self.DFTEMX)
self.PRIORITYVR = tk.IntVar()
self.PRIORITYVR.set(1)
self.Lrad = tk.Label(self, text="Prioritize:")
self.CMRD = tk.Radiobutton(self, text="CM SMs",variable=self.PRIORITYVR,value=1)
self.RRRD = tk.Radiobutton(self, text="RR SMs",variable=self.PRIORITYVR,value=0)
self.title.grid(row=0,column=1) #subtitle for the area
self.labelCMF.grid(row=1,column=0,sticky=tk.W)
self.RCSMF.grid(row=1,column=1)
self.LCSMT.grid(row=1,column=2)
self.RCSMTT.grid(row=1,column=3)
self.LRRFR.grid(row=2, column=0,sticky=tk.W)
self.RRRSMF.grid(row=2,column=1)
self.LRSMT.grid(row=2,column=2)
self.RRSMTT.grid(row=2,column=3)
self.LTF.grid(row=3,column=0,sticky=tk.W)
self.RTTSMF.grid(row=3,column=1)
self.LTLTO.grid(row=3,column=2)
self.RTLSMT.grid(row=3,column=3)
self.Lrad.grid(row=4,column=0,sticky=tk.W)
self.CMRD.grid(row=4,column=1)
self.RRRD.grid(row=4,column=3)
def GIP(self):
INPD = {}
INPD['CE'] = toint((self.DFCEMN.get(),self.DFCEMX.get()))
INPD['RE'] = toint((self.DFREMN.get(),self.DFREMX.get()))
INPD['TE'] = toint((self.DFTEMN.get(),self.DFTEMX.get()))
INPD['AOB'] = toint(self.PRIORITYVR.get())
return INPD
class LBSS(tk.Frame):
def __init__(self,parent,title='Library'):
tk.Frame.__init__(self,parent,bd=1,relief='sunken')
self.title = tk.Label(self,text=title)
self._setup()
def _setup(self):
self.LPRM = tk.Label(self,text="Permutations to Skip ")
self.PRMVR = tk.StringVar(value='1000')
self.PRMTO_skip = tk.Entry(self,textvariable=self.PRMVR)
self.LLBSZ = tk.Label(self,text="Library Size ")
self.LBVR = tk.StringVar(value='100')
self.LBSZ = tk.Entry(self,textvariable=self.LBVR)
self.LADEX = tk.Label(self,text="Add additional ester to each macrocycle")
self.SMSK = tk.Label(self,text="Skip generation of 3D coordinates")
self.LOUP = tk.Label(self,text="Output as:")
self.EXTEX = tk.IntVar(value=1)
self.SMSKB = tk.IntVar(value=1)
self.CSVO = tk.IntVar(value=1)
self.SDFO= tk.IntVar(value=1)
self.EXBTN = tk.Checkbutton(self,variable=self.EXTEX)
self.SMSKBN = tk.Checkbutton(self,variable=self.SMSKB)
self.LFLN = tk.Label(self, text="Output files directory:")
self.FLNVR = tk.StringVar(value='MacrocycleLibrary')
self.ENTFLN = tk.Entry(self,textvariable=self.FLNVR)
self.title.grid(row=0,column=1)
self.LPRM.grid(row=1,column=0,sticky=tk.W)
self.PRMTO_skip.grid(row=1,column=1)
self.LLBSZ.grid(row=2,column=0,sticky=tk.W)
self.LBSZ.grid(row=2,column=1)
self.LADEX.grid(row=3,column=0)
self.SMSK.grid(row=4,column=0)
self.SMSKBN.grid(row=4,column=1)
self.EXBTN.grid(row=3,column=1)
self.LFLN.grid(row=5,column=0)
self.ENTFLN.grid(row=5,column=1)
def GIP(self):
INPD = {}
INPD['PS'] = toint(self.PRMVR.get())
INPD['LS']= toint(self.LBVR.get())
INPD['EX'] = toint(self.EXTEX.get())
INPD['SKD'] = toint(self.SMSKB.get())
INPD['filename'] = self.FLNVR.get()
## if INPD['LS']> 1000000:
## INPD['LS'] = 1000000
return INPD
class MTNTBK(ttk.Notebook):
def __init__(self,parent,num_pages):
''''''
class MTFPG(ttk.Frame):
def __init__(self,parent, MTFFLNMES,num_rows=3,num_cols=6,img_width=100,img_height=100,entry_state='normal'):
ttk.Frame.__init__(self,parent)
self.parent = parent
self.FLNMES = MTFFLNMES
self.num_rows = num_rows
self.num_cols = num_cols
self.entry_state = entry_state
self.CTPG(img_width,img_height)
def CTPG(self,img_width,img_height):
self.blocks = []
MTFcount = 0
for motif in self.FLNMES:
r,c = divmod(MTFcount,self.num_cols)
text = motif.split('.')[0]
block = MTBLK(self,motif,text,img_width,img_height,self.entry_state)
block.grid(row=r,column=c,padx=1,pady=1)
self.blocks.append(block)
MTFcount += 1
def getETRE(self):
entries_dic = {}
for block in self.blocks:
motif,value = block.GE()
entries_dic[motif] = value
return entries_dic
class MTBLK(tk.Frame):
def __init__(self,parent,img_file, text_label,img_width=100,img_height=100, entry_state ='normal'):
tk.Frame.__init__(self,parent,width=img_width,height=img_height,bg="#d3d3d3",relief='sunken')
self.parent = parent
self.imfile = img_file
self.text = text_label
self.img_width = img_width
self.img_height = img_height
self.entry_state = entry_state
self._CBL()
def _CBL(self):
self.UPPFR = tk.Frame(self)
self.IMGFRM = tk.Frame(self)
self.PLIM= PIL.Image.open(self.imfile)
self.PLIM = self.PLIM.resize((self.img_width, self.img_height), PIL.Image.ANTIALIAS)
self.PLIM = PIL.ImageTk.PhotoImage(self.PLIM,master=self)
self.img = tk.Label(self, image=self.PLIM)
self.img.image = self.PLIM
self.label = tk.Label(self.UPPFR,text=self.text+' x ', bg='black',fg='white',anchor=tk.W)
self.DFvalues = tk.StringVar(value='0')
self.entry = tk.Entry(self,textvariable=self.DFvalues, state=self.entry_state)
self.UPPFR.pack(fill='x')
self.img.pack(fill='both')
self.label.pack(side='left',fill='x',expand=1)
self.entry.place(relx=1.8,x=2,y=-2,anchor=tk.N+tk.E)
def GE(self):
return (self.text,toint(self.DFvalues.get()))
class MainFrame(tk.Frame):
def __init__(self,parent):
''''''