def draw(tab_arrive,temps_file,temp_system):
dictio={}
j=0
for i in range(len(tab_arrive)):
dictio2={}
dictio2["t_arrive"]='{:.4f}'.format(tab_arrive[i])
dictio2["t_file"]='{:.4f}'.format(temps_file[i])
dictio2["t_service"]='{:.4f}'.format(tab_arrive[i]+temps_file[i])
dictio2["t_depart"]='{:.4f}'.format(tab_arrive[i]+temp_system[i])
j=i+1
dictio[j]=dictio2
master = Tk()
tframe = Frame(master)
tframe.pack()
table = TableCanvas(tframe)
table = TableCanvas(tframe, data=dictio)
model = table.model
model.importDict(dictio)
table.sortTable(columnName="t_arrive")
table.show()
master.mainloop()
def createWidgets(self):
self.table = TableCanvas(self.F,
rows=0,
cols=0,
width=350,
height=150,
editable=False,
cellwidth=175)
self.table.createTableFrame()
data = database.get_data_file(username1)
print data
if len(data) != 0:
for i in range(len(data)):
for j in range(2):
if j == 0:
data_1 = data[i][j]
if j == 1:
data_2 = data[i][j]
keyname = "rec" + str(i)
self.table.addRow(
keyname, **{
'Name of File': data_2,
'Date of created': data_1
})
self.table.redrawTable()
else:
keyname = "1"
data_2 = "no file in storage"
self.table.addRow(
keyname, **{
'Name of File': data_2,
'Date of created': data_2
})
self.table.redrawTable()
def __init__(self, master=None):
Frame.__init__(self, master)
self.pack()
self.model = TableModel()
self.table = TableCanvas(self, model=self.model)
self.table.createTableFrame()
root.bind('<ButtonRelease-1>', self.clicked) #Bind the click release event
self.create_widgets()
def initTable(self, ev = None):
self.tableFrame = Tkinter.Frame(self.top)
self.tableFrame.pack(expand = True, fill = Tkinter.BOTH) # 后期修改
self.top.geometry('920x700+200+100')
self.model = TableModel(rows = 0, columns = 0) # like HTML
self.bookTable = TableCanvas(self.tableFrame, self.model, cellwidth=120, cellbackgr='#e3f698',
thefont=('Arial',12), rowheight=22, rowheaderwidth=30, rowselectedcolor='yellow', editable=False) # like CSS
self.bookTable.createTableFrame()
self.colnames = ('ISBN', '书名', '作者', '出版社', '出版时间', '价格')
for name in self.colnames:
self.bookTable.addColumn(name)
self.bookTable.addRows(1)
self.bookTable.autoResizeColumns()
def __init__(self, parent, db, tableName="Leer"):
ttk.Frame.__init__(self, parent)
self.model = TableModel()
self.table = TableCanvas(self, model=self.model)
self.pack(fill=tk.BOTH, expand=1)
self.table.createTableFrame()
if tableName == "Leer":
return
conn = sqlite3.connect(db)
c = conn.cursor()
c.execute("PRAGMA table_info(%s)" % tableName)
# now create the model
data = {}
result = c.fetchall()
colnames = []
for r in result:
colnames.append(r[1])
c.execute("SELECT * from %s" % tableName)
rows = c.fetchall()
n = 0
for n in range(len(rows)):
data[n] = {}
data[n]["label"] = n
count = 0
for r in rows[n]:
data[n][colnames[count]] = r
count += 1
self.model.importDict(data)
self.table.redrawTable()
def _frame2():
frame.destroy()
frame2 = tk.Tk()
frame2.title('Frame2')
frame2.geometry('1000x300')
tframe = Frame(frame2)
tframe.pack()
datafrommssql()
table = TableCanvas(tframe,
editable=False,
read_only=True,
rows=5,
cols=5,
height=110,
width=939)
table.importCSV('test.csv')
Entry(frame2, text='', textvariable=id1).pack()
Button(frame2, text="Buy car", command=buy).pack()
table.show()
def ratSightings(self):
#call API for data
r = requests.get(
'http://ec2-54-174-96-216.compute-1.amazonaws.com:9000/showRecords'
)
rtext = r.text
rawdata = json.loads(rtext)
#create table & model
self.ratSightingView = Toplevel()
self.ratSightingView.title("List of recent rat sightings")
self.rattable = Frame(self.ratSightingView)
self.rattable.pack()
model = TableModel()
model.importDict(rawdata)
#convert date column to datetime data type
for x in range(len(rawdata)):
datestr = model.getValueAt(x, 6)
try:
date = datetime.datetime.strptime(datestr,
'%m/%d/%Y %I:%M:%S %p')
model.setValueAt(date.strftime('%Y/%m/%d %I:%M:%S %p'), x, 6)
except:
try:
dt = parser.parse(datestr)
model.setValueAt(date.strftime('%Y/%m/%d %I:%M:%S %p'), x,
6)
except:
pass
pass
#get data into table
table = TableCanvas(self.rattable, model=model)
table.createTableFrame()
#sort by date
table.sortTable(columnName='date')
'''
def initTable(self):
self.tabFm = Tkinter.Frame(self.top)
self.tabFm.pack(expand=True, fill=Tkinter.BOTH) # 后期修改
self.top.geometry('920x700+200+100')
self.model = TableModel(rows=0, columns=0) # like HTML
self.table = TableCanvas(self.tabFm,
self.model,
cellwidth=120,
cellbackgr='#e3f698',
thefont=('Arial', 12),
rowheight=22,
rowheaderwidth=30,
rowselectedcolor='yellow',
editable=False) # like CSS
self.table.createTableFrame()
self.colnames = ('ID', '姓名', '年龄', '加入时间')
for name in self.colnames:
self.table.addColumn(name)
self.refresh()
def __table__(self, master):
try:
if self.rule_win.state() == 'normal':
pass
except:
data = {}
colnums = ['Rule', 'Node', 'Question', 'Yes', 'No']
rule_dict = self.df.ix[:, 'Rule':'No']
for r in range(len(rule_dict.index)):
plice = {}
for c in range(len(rule_dict.columns)):
if rule_dict.iloc[r, c] == 'nan':
plice[rule_dict.columns[c]] = ' '
else:
plice[rule_dict.columns[c]] = rule_dict.iloc[r, c]
data[str(r)] = plice
self.rule_win = Toplevel(master)
frame = Frame(self.rule_win)
frame.pack()
model = TableModel()
for key in colnums:
model.addColumn(key) #sort the columns
model.importDict(data)
table = TableCanvas(frame,
model=model,
width=800,
height=500,
rowheight=20,
editable=False,
cellbackgr='#E3F6CE',
reverseorder=1,
rowselectedcolor='yellow')
table.createTableFrame()
table.sortTable(columnName='Rule')
def init_common_stat(self, statistic):
self.frame_common_stat = Frame(self)
self.frame_common_stat.grid(row=1, column=0, sticky=N + S + E + W)
model_common_stat = TableModel(10, False)
model_common_stat.add_column(_("clm_name"),
typedata='text',
align='left')
model_common_stat.add_column(_("clm_ru_en_cnt"),
typedata='number',
align='right',
max_val=u"99999")
model_common_stat.add_column(_("clm_en_ru_cnt"),
typedata='number',
align='right',
max_val=u"99999")
model_common_stat.add_column(_("clm_ru_en_perc"),
typedata='percent',
align='right',
max_val=u"100.0 %")
model_common_stat.add_column(_("clm_en_ru_perc"),
typedata='percent',
align='right',
max_val=u"100.0 %")
row_name = [[_("row_learned")], [_("row_study")], [_("row_learn")],
[_("row_total")]]
for row in [
row_name[i] + it
for i, it in enumerate(statistic.get_common_stat())
]:
model_common_stat.add_row(row)
self.table_common_stat = TableCanvas(self.frame_common_stat,
model_common_stat,
sort_enable=False)
self.table_common_stat.createTableFrame()
self.frame_common_stat.grid_forget()
from tkintertable.Tables import TableCanvas
from tkintertable.TableModels import TableModel
from Tkinter import *
master = Tk()
tframe = Frame(master)
tframe.pack()
model = TableModel()
table = TableCanvas(tframe, model=model)
#model = table.model
#model.addColumn('col1')
#model.addColumn('col2')
#model.addColumn()
data = {
'1': {
'col1': 99.88,
'col2': 108.79
},
'2': {
'col1': 99.88,
'col2': 108.79
}
}
model.importDict(data)
table.createTableFrame()
#table.pack()
master.mainloop()
def __init__(self, frame, usable_width, direction):
self.deleted = False
self.directed = direction
self.ftable = Frame(frame.ftables)
self.ft = Frame(self.ftable)
self.fnp = Frame(self.ftable)
#frame network properties
if(usable_width > 1500) :
button_width=17
button_width_plot=7
font=('Verdana',9)
image_button = 23
list_fonts = list( tkFont.families() )
elif(usable_width > 1200):
button_width=15
button_width_plot=6
image_button = 28
font=('Verdana',10)
else:
button_width=14
button_width_plot=5
image_button = 28
font=('Verdana',8)
if(usable_width > 1500):
self.save_img = PhotoImage(file="save.gif")
self.load_img = PhotoImage(file="load.gif")
self.delete_img = PhotoImage(file="delete.gif")
elif(usable_width > 1200):
self.save_img = PhotoImage(file="save22.gif")
self.load_img = PhotoImage(file="load22.gif")
self.delete_img = PhotoImage(file="delete.gif")
else:
self.save_img = PhotoImage(file="save20.gif")
self.load_img = PhotoImage(file="load20.gif")
self.delete_img = PhotoImage(file="delete.gif")
labelfnp_width = 10
pos = 0
# buttons area for the right panel of each graph
self.buttonSave = Button(master=self.fnp, image=self.save_img, command=lambda num=frame.number_table: save_network(frame, num), relief=FLAT, width=image_button)
self.buttonSave.image = self.save_img
self.buttonSave.grid(row=0, column=0, pady=1, padx=1)
self.buttonDelete = Button(master=self.fnp, image=self.delete_img, command=lambda num=frame.number_table: delete_network(frame, num), relief=FLAT, width=image_button)
self.buttonDelete.image = self.delete_img
self.buttonDelete.grid(row=pos, column=1, pady=1, padx=1)
pos += 1
self.plot_button = Button(master=self.fnp, text='Plot', command=lambda num=frame.number_table: plot_graph(frame, num), width=button_width)
self.plot_button.grid(row=pos, column=0, columnspan=2, pady=2, padx=5)
pos += 1
self.netPro_label = Label(self.fnp, text="Network properties:", width=3*labelfnp_width, anchor=CENTER)
self.netPro_label.grid(row=pos, column=0, columnspan=2, pady=2, padx=5)
pos += 1
self.number_nodesLabel = Label(self.fnp, text="Nodes: ", width=labelfnp_width, anchor=W)
self.number_nodesLabel.grid(row=pos, column=0, pady=2, padx=5)
self.number_nodes_str = StringVar()
self.number_nodes_l = Label(self.fnp, textvariable=self.number_nodes_str, width=labelfnp_width, anchor=W)
self.number_nodes_l.grid(row=pos, column=1, pady=2, padx=5)
pos += 1
self.number_arcsLabel = Label(self.fnp, text="Arcs: ", width=labelfnp_width, anchor=W)
self.number_arcsLabel.grid(row=pos, column=0, pady=2, padx=5)
self.number_arcs_str = StringVar()
self.number_arcs_l = Label(self.fnp, textvariable=self.number_arcs_str, width=labelfnp_width, anchor=W)
self.number_arcs_l.grid(row=pos, column=1, pady=2, padx=5)
pos += 1
self.number_diameterLabel = Label(self.fnp, text="Diameter: ", width=labelfnp_width, anchor=W)
self.number_diameterLabel.grid(row=pos, column=0, pady=2, padx=5)
self.diameter_str = StringVar()
self.diameter_l = Label(self.fnp, textvariable=self.diameter_str, width=labelfnp_width, anchor=W)
self.diameter_l.grid(row=pos, column=1, pady=2, padx=5)
pos += 1
self.assortativityLabel = Label(self.fnp, text="Assortativity: ", width=labelfnp_width, anchor=W)
self.assortativityLabel.grid(row=pos, column=0, pady=2, padx=5)
self.assortativity_str = StringVar()
self.assortativity_l = Label(self.fnp, textvariable=self.assortativity_str, width=labelfnp_width, anchor=W)
self.assortativity_l.grid(row=pos, column=1, pady=2, padx=5)
pos += 1
self.entropyLabel = Label(self.fnp, text="Entropy: ", width=labelfnp_width, anchor=W)
self.entropyLabel.grid(row=pos, column=0, pady=2, padx=5)
self.entropy_str = StringVar()
self.entropy_l = Label(self.fnp, textvariable=self.entropy_str, width=labelfnp_width, anchor=W)
self.entropy_l.grid(row=pos, column=1, pady=2, padx=5)
pos += 1
self.subgraph_ind_sub = Button(master=self.fnp, text='Induced subgraph', font=font, command=lambda num=frame.number_table: induced_subgraph(frame, num, usable_width), width=button_width)
self.subgraph_ind_sub.grid(row=pos, column=0, pady=2, padx=5)
pos+=1
self.subgraph_ind_sub_lev = Button(master=self.fnp, text='Subgraph level', font=font, command=lambda num=frame.number_table: subgraph_levels(frame, num, usable_width), width=button_width)
self.subgraph_ind_sub_lev.grid(row=pos, column=0, pady=2, padx=5)
self.frame_but = Frame(self.fnp)
#table part, create and fill columns
self.columnNames = columnNames
self.model = TableModel()
self.model.data = {}
for i in xrange(len(self.columnNames)):
if(direction):
if(columnNames[i] != "Information centrality"):
self.model.addColumn(self.columnNames[i])
else:
if(columnNames[i] != 'Eccentricity in'):
if(columnNames[i] != 'Vibrational centrality in'):
if(columnNames[i] != 'In degree'):
if(columnNames[i] != 'Total degree'):
self.model.addColumn(self.columnNames[i].replace(" out", "").replace("Out degree", "Degree"))
if(usable_width > 1500):
thefont=30
rowheight=22
else:
thefont=5
rowheight=20
self.table = TableCanvas(self.ft, model=self.model, rows=0, cols=0, rowheaderwidth=0, rowheight=rowheight,
cellbackgr='#ffffff', thefont=thefont, editable=False, showkeynamesinheader=True,
autoresizecols=True, fill=X)
self.model.addRow()
self.table.createTableFrame()
self.file_name = StringVar()
self.file_name_label = Label(self.ftable, textvariable=self.file_name)
self.file_name_label.pack(side=TOP)
self.ft.pack(side=LEFT, expand=True, fill=X)
self.fnp.pack(side=RIGHT)
self.ftable.pack(expand=True, fill=X)
#create the centrality list
self.centrality = [[] for x in xrange(len(self.columnNames))]
self.table.fontsize=thefont
self.table.setFontSize()
self.adj_matrix = None
self.laplacian_psinv = None
frame.canvas.config(scrollregion=frame.canvas.bbox("all"))
def __init__(self, parent):
self.listEnfermedad = ['a', "d", "c"]
self.listMedicamentos = ['a', "d", "c"]
self.listObserver = []
self.actualizarListas()
self.actualrow = 0
self.rowEvent = 99
#Ventana de tablas y entradas
self.r1 = parent
self.r = Frame(self.r1)
self.r1.wm_title("Ventana de busqueda")
self.group = LabelFrame(self.r, bd=0)
# self.group.grid(row=0,column=0,sticky=NW, padx=5, pady=5)
self.group.pack(side=LEFT)
self.r.pack(expand=True, fill='x', side=LEFT)
# Ventana que muestra antecedesntes y informacion especifica de radiografia
self.a = Frame(self.r1, padx=20, pady=20)
self.b = VentanaDetalles(self.a)
self.b.setWindow(self)
self.a.pack(side=RIGHT)
#Filtrar por id
self.putInPlace(IdSearch)
#Filtrar por nombre
self.putInPlace(NameSearch)
#Filtrar por apellido
self.putInPlace(LastNameSearch)
#Filtrar por Rut
self.putInPlace(RutSearch)
#Filtrar por sexo
self.putInPlace(SexoSearch)
#Filtrar por Enfermedad y confirmado comboBox
self.listObserver.append(self.putInPlace(Enfermedadearch))
#Filtro confirmado
self.putInPlace(ConfirmadoSearch)
#Tipo de radiografia
self.putInPlace(TipoRadioSearch)
#Fecha inicio fecha final
self.putInPlace(FechaSearch)
#Fuma
self.putInPlace(FumaSearch)
#Medicamento
self.listObserver.append(self.putInPlace(MedicamentoSearch))
#Mostrar resultados
marco11 = Frame(self.r)
bSearch = Button(marco11, text="Busqueda", command=self.doQuery)
bSearch.pack(padx=5, pady=5)
lResultados = Label(marco11, text="Resultados de query: ")
lResultados.pack(padx=5, pady=5)
# marco11.grid(row=self.actualrow, column=0,sticky=W, padx=5, pady=5)
marco11.pack()
self.actualrow += 1
marco12 = Frame(self.r)
self.model = TableModel()
self.table = TableCanvas(marco12,
self.model,
cellwidth=120,
cellbackgr='#e3f698',
thefont=('Arial', 9),
rowheight=18,
rowheaderwidth=30,
rowselectedcolor='yellow',
editable=False)
self.table.createTableFrame()
# marco12.grid(row=self.actualrow,column=0,sticky=W, padx=5, pady=5)
marco12.pack(expand=False, fill='x')
self.actualrow += 1
self.actualizarListas()
self.r1.bind("<Button-1>", self.changeCurrentId)
import time
import Tkinter
from tkintertable.Tables import TableCanvas
from tkintertable.TableModels import TableModel
master = Tkinter.Tk()
tframe = Tkinter.Frame(master)
tframe.pack()
table = TableCanvas(tframe)
table.createTableFrame()
# Create a model from data and init.
model = TableModel()
table = TableCanvas(tframe, model=model,width=1200, height=800)
table.createTableFrame()
raw_input('Redraw table and put data into it!')
# Call to update after content change.
table.redrawTable()
#To import from a dictionary we get a handle on the model
#(or we can create the model first and supply it as an argument to the table constructor):
data = {'rec1': {'col1': 99.88, 'col2': 108.79, 'label': 'rec1'},
'rec2': {'col1': 99.88, 'col2': 108.79, 'label': 'rec2'},
'rec3': {'col1':1.0, 'label':'rec3'},
'rec4': {'col1':2.0, 'label':'rec4'}
}
model = table.model
model.importDict(data) #can import from a dictionary to populate model
def findTermFrequencies(self):
"""
Method for calculating the frequencies of each term in the tweets.
"""
if not os.path.isfile(self.TwitterKeysFile):
tkMessageBox.showerror(
"ERROR",
"Twitter API credentials not filled. Use the Set/Update Twitter Credentials button to do so.",
parent=self.parent)
return
self.count += 1
if self.termFrequenciesOpenedFlag == False:
# set window opened
self.termFrequenciesOpenedFlag = True
# initialize window
global TermFrequenciesWindow
def toggleFlag():
self.termFrequenciesOpenedFlag = False
TermFrequenciesWindow.destroy()
TermFrequenciesWindow = tk.Toplevel(self)
TermFrequenciesWindow.minsize(500, 500)
#TwitterKeysWindow.overrideredirect(True)
TermFrequenciesWindow.geometry("500x500+100+100")
TermFrequenciesWindow.title("Term Frequencies (only > 0.5%)")
TermFrequenciesWindow.config(bd=5)
TermFrequenciesWindow.protocol("WM_DELETE_WINDOW", toggleFlag)
# create a new TableModel for table data
model = TableModel()
# create a new TableCanvas for showing the table
table = TableCanvas(TermFrequenciesWindow,
model=model,
editable=False)
table.createTableFrame()
# dictionary for storing table data
tableData = {}
# calculate frequencies
freqs = {}
total = 0
outfile = open(self.TwitterStreamFile)
for line in outfile:
json_obj = json.loads(line)
try:
text = json_obj['text'].decode('utf-8')
# clean the text
text = ' '.join(
re.sub(
"(@[A-Za-z0-9]+)|([^0-9A-Za-z \t])|(\w+:\/\/\S+)",
"", text).split())
text = re.sub(r'^https?:\/\/.*[\r\n]*',
'',
text,
flags=re.MULTILINE)
text = re.sub(r'RT', '', text, flags=re.MULTILINE)
#print text
text_list = text.split(' ')
for char in text_list:
if char.isalnum():
if char not in freqs:
freqs[char] = 1
else:
freqs[char] += 1
total += 1
except:
#print "passed"
pass
for key in freqs.keys():
if freqs[key] / float(total) > 0.005:
# insert frequencies into the table dictionary
tableData[uuid.uuid4()] = {
'Term':
key,
'Frequency (%)':
str(round((freqs[key] / float(total)) * 100, 2))
}
#print key + " " + str(freqs[key]/float(total))
# insert and sort data in the table
model.importDict(tableData)
#sort in descending order
model.setSortOrder(columnIndex=1, reverse=1)
table.adjustColumnWidths()
table.resizeColumn(0, 200)
table.resizeColumn(1, 200)
table.redrawTable()
#!python2
#coding: utf-8
from Tkinter import *
from ttk import *
from tkintertable.Tables import TableCanvas
from tkintertable.TableModels import TableModel
'''
创建Table
'''
root=Tk()
main_f=Frame(root)
main_f.pack()
table = TableCanvas(main_f)
table.createTableFrame()
'''
导入数据
'''
model = table.model
#model.importDict(data) #can import from a dictionary to populate model
table.load("1.table")
table.model.data[0]['Model']='test'
table.model.data[6]['Model']='test6'
table.redrawTable()
def updatetable(filename):
f=open(filename,'r')
for lineno,line in enumerate(f):
if lineno == 0:
continue
root.geometry('1000x700')
f = Figure(figsize=(4, 4), dpi=50)
axis = f.add_subplot(111)
canvas = FigureCanvasTkAgg(f, master=root)
canvas.get_tk_widget().place(x=10, y=30)
frame2 = Frame(root)
frame2.place(x=20, y=300)
X_Axis = pylab.arange(0, 100, 1)
plotFigure = Figure(figsize=(4, 4), dpi=50)
axis2 = plotFigure.add_subplot(111)
axis2.grid(True)
axis2.set_title("Mean value per Frame")
axis2.axis([0, 100, 0, 255])
Plot = axis2.plot(X_Axis, [0] * 100, 'o-', color='r', markersize=6)
model = TableModel()
table = TableCanvas(frame2, model, height=100, width=300)
model = table.model
table.createTableFrame()
canvas2 = FigureCanvasTkAgg(plotFigure, master=root)
canvas2.get_tk_widget().place(x=500, y=30)
b1 = Button(root, text="Start", bg='white', command=video_start).place(x=50,
y=600)
b2 = Button(root, text="Stop", bg='white', command=video_stop).place(x=400,
y=600)
root.mainloop()
#===========================================================================================
def init_detailed_stat(self, statistic, stat_count_row):
self.frame_detailed_stat = Frame(self)
self.frame_detailed_stat.grid(row=1, column=0, sticky=N + S + E + W)
self.model_ru_en = TableModel(stat_count_row, True)
self.model_ru_en.add_column(_("clm_word"),
typedata='text',
align='left')
self.model_ru_en.add_column(_("clm_transcription"),
typedata='text',
align='left')
self.model_ru_en.add_column(_("clm_translate"),
typedata='text',
align='left')
self.model_ru_en.add_column(_("clm_cnt_suc"),
typedata='number',
align='right',
max_val=u"999")
self.model_ru_en.add_column(_("clm_cnt_err"),
typedata='number',
align='right',
max_val=u"999")
self.model_ru_en.add_column(_("clm_study_perсent"),
typedata='percent',
align='right',
max_val=u"100.0 %")
for row, word in statistic.get_ru_en():
self.model_ru_en.add_row(row, word)
self.model_ru_en.sort(5, True)
self.table_detailed_stat = TableCanvas(
self.frame_detailed_stat,
self.model_ru_en,
sort_enable=True,
callback=self.draw_callback,
dbl_click_callback=self.rename_dlg)
self.table_detailed_stat.createTableFrame()
self.model_en_ru = TableModel(stat_count_row, True)
self.model_en_ru.add_column(_("clm_word"),
typedata='text',
align='left')
self.model_en_ru.add_column(_("clm_transcription"),
typedata='text',
align='left')
self.model_en_ru.add_column(_("clm_translate"),
typedata='text',
align='left')
self.model_en_ru.add_column(_("clm_cnt_suc"),
typedata='number',
align='right')
self.model_en_ru.add_column(_("clm_cnt_err"),
typedata='number',
align='right')
self.model_en_ru.add_column(_("clm_study_perсent"),
typedata='percent',
align='right')
for row, word in statistic.get_en_ru():
self.model_en_ru.add_row(row, word)
self.model_en_ru.sort(5, True)
for col in range(0, self.model_en_ru.get_column_count()):
self.model_en_ru.get_column(
col).width = self.model_ru_en.get_column(col).width
command=lambda: search(trend_text, noOfTweets_text, saveFile_text.get(1.0, 'end'), progress))
search_button.place(relx=move_x+0.61, rely=0.3, relwidth=0.15, relheight=0.05)
progress = ttk.Progressbar(canvas, length=100, orient=HORIZONTAL, mode='determinate')
progress.place(relx=move_x+0.45, rely=0.38, relwidth=0.5, anchor='n')
show_button = Button(canvas, text='Show Tweets', font='Helvetica 20 bold', command=lambda: show_tweets(saveFile_text.get(1.0, 'end')))
show_button.place(relx=move_x+0.3, rely=0.42, relwidth=0.15, relheight=0.05, anchor='n')
reset_button = Button(canvas, text='Reset', font='Helvetica 20 bold', command=lambda: reset())
reset_button.place(relx=move_x+0.6, rely=0.42, relwidth=0.15, relheight=0.05, anchor='n')
frame = Frame(canvas, bd=10, bg='#ececec')
frame.config(highlightbackground="red", highlightcolor="red")
model = TableModel()
frame.place(relx=0.1, rely=0.5, relwidth=0.8, relheight=0.45)
Table = TableCanvas(frame, model=model, cols=3, thefont=('Helvetica', 13),
rows=Total_Tweets, rowheight=50, rowselectedcolor='#ececec',
cellbackgr='#ececec', read_only=False)
Table.show()
#Table.place(relx=0.06, rely=0.06, relwidth=0.94, relheight=0.94)
root.mainloop()
if __name__ == "__main__":
pass
def __init__(self, parent, top, opt):
'''
Constructor
'''
self.__parent = parent
self.__top = top
self.__opt = opt
config = ConfigManager.ConfigManager.getInstance()
# Period to delay between table refreshes
self.__update_period = config.get('performance',
'telem_table_update_period')
#
# Status updater singleton
#
self.__status_update = status_updater.StatusUpdater.getInstance()
#
# Instance the channel loader here and get all channel names
#
self.__channel_loader = channel_loader.ChannelLoader.getInstance()
self.__channel_names_list = self.__channel_loader.getNameDict().values(
)
self.__channel_names_dict = self.__channel_loader.getNameDict()
num_channels = len(self.__channel_loader.getNameDict())
#
# Container Frame
f = Tkinter.Frame(parent)
f.pack(side=Tkinter.TOP, anchor=Tkinter.N, fill=Tkinter.BOTH, expand=1)
#
# Create a model and connect it to a table on a canvas
#
self.__model = TableModel()
self.__table = TableCanvas(f,
model=self.__model,
width=1200,
height=800)
# Set font
font = config.get('tables', 'font')
font_size = config.get('tables', 'font_size')
self.__table.thefont = (font, font_size)
self.__table.rowheight = int(font_size) + 5
self.__table.createTableFrame()
self.__table.redrawTable()
# Mouse movement causes flyover text. This is not needed.
# Unbind the appropriate event handler
self.__table.unbind('<Motion>')
#
# Init. the table with a standard set of column headers
#
data = {'1': {'Channel': None}}
self.__model.importDict(
data) # can import from a dictionary to populate model
self.__table.addColumn('Id')
self.__table.addColumn('Time')
self.__table.addColumn('Value')
for i in range(2, num_channels + 1):
self.__table.addRow("%s" % i)
self.__table.align = 'w'
self.__table.redrawTable()
self.__table.maxcellwidth = 500
# Remove Row and cell highlight color
self.__table.rowselectedcolor = None
self.__table.selectedcolor = None
# Rebind <B1-Motion> event to catch exception from column resize error
self.__table.tablecolheader.unbind('<B1-Motion')
self.__table.tablecolheader.bind('<B1-Motion>',
self.__handle_column_motion)
self.__table.tablecolheader.unbind('<ButtonRelease-1>')
self.__table.tablecolheader.bind('<ButtonRelease-1>',
self.__handle_column_release)
# Make table read only
self.__table.editable = False
#
# Pop-up Channel Telemetry Filter Selection and Active Filter Status.
#
f2 = Tkinter.LabelFrame(f,
text="Channel Telemetry Filtering:",
padx=5,
pady=5)
f2.grid(row=2, column=0, columnspan=4, sticky=Tkinter.W + Tkinter.E)
#
b1 = Tkinter.Button(f2, text="Select Channels", command=self.__select)
b1.pack(side=Tkinter.LEFT)
# Hex value toggle
self.__print_hex = Tkinter.IntVar()
self.__print_hex.set(0)
self.__hex_cb = Tkinter.Checkbutton(f2,
text="Show Hex",
variable=self.__print_hex,
pady=5)
self.__hex_cb.pack(side=Tkinter.RIGHT)
#
self.__e1 = Pmw.ScrolledField(f2,
labelpos=Tkinter.W,
labelmargin=0,
text="None")
self.__e1.pack(side=Tkinter.LEFT, expand=1, fill=Tkinter.X)
self.__e1.component('entry').config(width=60)
self.__e1.component('label').config(text='Active Filter Selected:')
#
# This is a channel id key to row value dictionary
# built up over runtime to update table.
#
self.__row_dict = dict()
self.__row_max = 1
#
# List of active channels to display
self.__channel_names_list.sort()
self.__channels_active_list = self.__channel_names_list
self.__inactive_channels = []
def findTweetSentiment(self):
"""
Method for calculating the sentiment of each tweet.
"""
if not os.path.isfile(self.TwitterKeysFile):
tkMessageBox.showerror(
"ERROR",
"Twitter API credentials not filled. Use the Set/Update Twitter Credentials button to do so.",
parent=self.parent)
return
self.count += 1
if self.tweetSentimentOpenedFlag == False:
# set window opened
self.tweetSentimentOpenedFlag = True
# initialize window
global TweetSentimentWindow
def toggleFlag():
self.tweetSentimentOpenedFlag = False
TweetSentimentWindow.destroy()
TweetSentimentWindow = tk.Toplevel(self)
TweetSentimentWindow.minsize(600, 500)
#TwitterKeysWindow.overrideredirect(True)
TweetSentimentWindow.geometry("1000x500+100+100")
TweetSentimentWindow.title(
"Tweet Sentiments (Zero values omitted)")
TweetSentimentWindow.config(bd=5)
TweetSentimentWindow.protocol("WM_DELETE_WINDOW", toggleFlag)
# create a new TableModel for table data
model = TableModel()
# create a new TableCanvas for showing the table
table = TableCanvas(TweetSentimentWindow,
model=model,
editable=False)
table.createTableFrame()
# dictionary for storing table data
tableData = {}
# calculate sentiments
afinnfile = open(self.AFINNFile)
scores = {}
for line in afinnfile:
term, score = line.split("\t")
scores[term] = int(score)
#print scores.items()
positive = 0.0
negative = 0.0
outfile = open(self.TwitterStreamFile)
for line in outfile:
json_obj = json.loads(line)
sentiment = 0
try:
text = json_obj['text'].decode('utf-8')
# clean the text
text = ' '.join(
re.sub(
"(@[A-Za-z0-9]+)|([^0-9A-Za-z \t])|(\w+:\/\/\S+)",
"", text).split())
text = re.sub(r'^https?:\/\/.*[\r\n]*',
'',
text,
flags=re.MULTILINE)
text = re.sub(r'RT', '', text, flags=re.MULTILINE)
#print text
text_list = text.split(' ')
for char in text_list:
if char in scores:
sentiment += scores[char]
if sentiment != 0:
# add items to table data dictionary
tableData[uuid.uuid4()] = {
'Tweet': text,
'Score': str(sentiment)
}
if sentiment > 0:
positive += 1
elif sentiment < 0:
negative += 1
#print text + " " + str(sentiment) + "\n\n"
except:
#print "passed"
pass
# calculate ratio
if positive > 0 and negative > 0:
ratio = round(float(positive) / float(negative), 2)
# insert and sort data in the table
model.importDict(tableData)
table.resizeColumn(0, 850)
table.resizeColumn(1, 50)
table.sortTable(columnName='Score')
table.redrawTable()
if positive > negative:
extra = "The overall sentiment is POSITIVE."
else:
extra = "The overall sentiment is NEGATIVE."
# show info box about the overall result
tkMessageBox.showinfo(
"Score Ratio",
"The ratio of positive vs. negative tweets is " + str(ratio) +
". " + extra,
parent=TweetSentimentWindow)
import tkinter as tk from tkintertable.Tables import TableCanvas from tkintertable.TableModels import TableModel root = tk.Tk() tframe = tk.Frame(root) tframe.pack() table = TableCanvas(tframe) table.createTableFrame() root.mainloop()
#!/usr/bin/evn python
# -*- coding: utf-8 -*-
# python version 2.7.6
from Tkinter import *
from tkintertable.Tables import TableCanvas
from tkintertable.TableModels import TableModel
master = Tk()
master.geometry('600x400+200+100')
frame = Frame(master)
frame.pack(fill=BOTH,expand=1)
#table = TableCanvas(tframe)
#table.createTableFrame()
data = {'rec1': {'col1': 99.88, 'col2': 108.79, 'label': 'rec1'},
'rec2': {'col1': 99.88, 'col2': 108.79, 'label': 'rec2'},}
model = TableModel()
model.importDict(data)
table = TableCanvas(frame, model,editable=False)
table.createTableFrame()
master.mainloop()
