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Jose Henao
Jose Henao
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NUEVO ERROR:

Exception in Tkinter callback
Traceback (most recent call last):
  File "C:\Users\PERSONAL\AppData\Local\Programs\Python\Python38\lib\tkinter\__init__.py", line 1883, in __call__
    return self.func(*args)
  File "index5.py", line 127, in add_product
    if self.validation():
  File "index5.py", line 122, in validation
    return len(self.name.get()) != 0  and len(self.price.get()) != 0 and len(self.stock.get()) != 0 and len(self.section.get()) != 0
  File "index5.py", line 332, in get
    return decimal.Decimal(
NameError: name 'decimal' is not defined

***Repl Closed***

NUEVO ERROR:

Exception in Tkinter callback
Traceback (most recent call last):
  File "C:\Users\PERSONAL\AppData\Local\Programs\Python\Python38\lib\tkinter\__init__.py", line 1883, in __call__
    return self.func(*args)
  File "index5.py", line 127, in add_product
    if self.validation():
  File "index5.py", line 122, in validation
    return len(self.name.get()) != 0  and len(self.price.get()) != 0 and len(self.stock.get()) != 0 and len(self.section.get()) != 0
  File "index5.py", line 332, in get
    return decimal.Decimal(
NameError: name 'decimal' is not defined

***Repl Closed***
se añadieron 8376 caracteres en el cuerpo
Origen Enlace
Jose Henao
Jose Henao
  • 53
  • 4
  • 10
from tkinter import ttk
from tkinter import *
import sqlite3

# ------------- APLICACION DE PRODUCTOS--------------

# 1 - CREACION CLASE PRODUCT PARA MANEJAR TODAS LAS VENTANAS Y METODOS DE LA APLICACION DE PRODUCTOS
class Product:
    # 8 - CREAR VARIABLE PARA BD
    db_name = 'database.db'

    # 4 - DEFINIMOS EL CONSTRUCTOR Y TOMAMOS EL PARAMETRO QUE NOS ESTAN PASANDO AL INICIAR LA VENTANA
    def __init__(self, window):
 
        # 6 - CREAR PROPIEDAD U OBJETO PARA ALMACENAR LA VENTANA QUE ESTA RECIBIENDO EL CONSTRUCTOR
        self.win = window
        style = ttk.Style()
        self.win.title('Aplicacion de Productos')

        # 7 - CREACION INTERFAZ GRAFICA
        # FRAME CONTENEDOR
        frame = LabelFrame(self.win, text=' REGISTRAR UN NUEVO PRODUCTO: ')
        frame.gridinterfaz_inicial(row = 0, column = 0, columnspan = 3, pady = 15, ipadx = 5, ipady = 5)
        
        # INPUT NAME
        Label(frame, text=' Nombre: ').grid(row = 1, column = 0, padx = 20, pady = 5, sticky = W)
        self.name = Entry(frame, width=45)
        self.name.focus()
        self.name.grid(row = 1, column = 1, sticky = W)

        # INPUT PRECIO
        Label(frame, text=' Precio: ').grid(row = 2, column = 0, padx = 20, pady = 5, sticky = W)
        self.price = Entry(frame, width=25)
        self.price.grid(row = 2, column = 1, sticky = W)

        # INPUT STOCK
        Label(frame, text=' Stock: ').grid(row = 3, column = 0, padx = 20, pady = 5, sticky = W)
        self.stock = Entry(frame, width=25)
        self.stock.grid(row = 3, column = 1, sticky = W)

        # INPUT SECCION
        Label(frame, text=' Seccion: ').grid(row = 4, column = 0, padx = 20, pady = 5, sticky = W)
        self.section = Entry(frame, width=45)
        self.section.grid(row = 4, column = 1, sticky = W)

        # BOTON AGREGAR PRODUCTO
        style = ttk.Style ()
        
        style.configure('TButton', font = ('calibri', 10, 'bold', 'underline'), background = '#cbe5fe', foreground = 'red') 

        ttk.Button(frame, text='Agregar Producto',  style =text='AGREGAR 'TButton'PRODUCTO', command=self.add_product).grid(row = 5, columnspan = 2, padx=5ipadx=40, pady = 10, sticky = W + E)
        
        # LABEL PARA MENSAJES DE SALIDA
        self.message = Label(text = '')
        self.message.grid(row = 6, column = 0, columnspan = 5, sticky = W + E, padx = 150)

        # TABLA
        frame2 = LabelFrame(self.win, text=' LISTADO DE PRODUCTOS: ')
        frame2.grid(row = 7, column = 0, columnspan = 3, padx = 20, pady = 15)

        self.tree = ttk.Treeview(frame2, height = 10, columns=("#1", "#2", "#3""#"))
        self.tree.grid(row = 87, column = 0, columnspan = 2, padx = 20, pady = 10)
        self.tree.heading("#0", text="Nombre", anchor = CENTER)         
        self.tree.heading("#1", text="Precio", anchor = CENTER)
        self.tree.heading("#2", text="Stock", anchor = CENTER)
        self.tree.heading("#3", text="Seccion", anchor = CENTER)
        
        # SCROLL VERTICAL TREEVIEW
        scrolvert = Scrollbar(frame2, command = self.tree.yview)
        scrolvert.grid(row=8row=7, column=2, sticky="nsew")
        self.tree.config(yscrollcommand=scrolvert.set)

         # SCROLL HORIZONTAL TREEVIEW
        scrolhoriz = Scrollbar(frame2, command = self.tree.xview, orient='horizontal')
        scrolhoriz.grid(row=12, column=0, columnspan=2, sticky="news")
        self.tree.config(xscrollcommand=scrolhoriz.set)

        # BOTONES
        ttk.Button(text='EDIT', command=self.edit_product).grid(row = 13, column = 0, columnspan=2, ipadx = 50, pady = 10)
        ttk.Button(text='DELETE', command=self.del_product).grid(row = 13, column = 1, columnspan=2, ipadx = 50, pady = 10)

        self.get_products()
    
    # 7 - CREACION INTERFAZ GRAFICA
    def interfaz_inicial(self):

        global frame
        # FUNCION PARA TRANSFORMAR A MAYUSCULA
       
        # FRAME CONTENEDOR
        frame = LabelFrame(self.win, text=' REGISTRAR UN NUEVO PRODUCTO: ')
        frame.grid(row = 0, column = 0, columnspan = 3, pady = 15, ipadx = 5, ipady = 5)
        
        # INPUT NAME
        Label(frame, text=' Nombre: ').grid(row = 1, column = 0, padx = 20, pady = 5, sticky = W)
        #self.name = Entry(frame, width=45)
        self.name = UpperEntry(frame, width=45)
        self.name.grid(row = 1, column = 1, sticky = W)
        self.name.focus()
        
        # INPUT PRECIO
        Label(frame, text=' Precio: ').grid(row = 2, column = 0, padx = 20, pady = 5, sticky = W)
        #self.price = Entry(frame, width=25)
        #self.price = UpperEntry(frame, width=25)
        self.price = CurrencyEntry(frame, width=25)
        self.price.grid(row = 2, column = 1, sticky = W)
        
        # INPUT STOCK
        Label(frame, text=' Stock: ').grid(row = 3, column = 0, padx = 20, pady = 5, sticky = W)
        #self.stock = Entry(frame, width=25)
        self.stock = UpperEntry(frame, width=25)
        self.stock.grid(row = 3, column = 1, sticky = W)

        # INPUT SECCION
        Label(frame, text=' Seccion: ').grid(row = 4, column = 0, padx = 20, pady = 5, sticky = W)
        #self.section = Entry(frame, width=45)
        self.section = UpperEntry(frame, width=45)
        self.section.grid(row = 4, column = 1, sticky = W)

        # BOTON AGREGAR PRODUCTO
        ttk.Button(frame, text='AGREGAR PRODUCTO', command=self.add_product).grid(row = 5, columnspan = 2, ipadx=40, pady = 10)
        
    # 9 - CREAR METODO PARA CONECTAR Y HACER CONSULTAS A LA BASE DE DATOS
    def run_query(self, query, parameters = ()):
        with sqlite3.connect(self.db_name) as conn:
            cursor = conn.cursor()
            result = cursor.execute(query,parameters)
            conn.commit()
        return result

    # 10 - OBTENER DATOS DE LA TABLA product
    def get_products(self):
        
        #limpiando treeview
        records = self.tree.get_children()
        for element in records:
            self.tree.delete(element)

        # ejeutando consulta    
        query = 'SELECT * FROM product ORDER BY name DESC'
        db_rows = self.run_query(query)
        
        # llenando data
        for row in db_rows:
            #print(row)
            self.tree.insert('',0,text = row[1], values = (row[2], row[3], row[4]))

        # activando focus en la tabla
        child_id =11 self.tree.get_children()[-1] # for instance the last element in tuple
        self.tree.focus(child_id)
        self.tree.selection_set(child_id)   VALIDAR CAMPOS
    
    def validation(self):
        return len(self.name.get()) != 0  and len(self.price.get()) != 0 and len(self.stock.get()) != 0 and len(self.section.get()) != 0
    
    # 12 - AGREGAR PRODUCTOS
    def add_product(self):
 
        if self.validation():
 
            query = 'INSERT INTO product VALUES (NULL, ?, ?, ?, ?)'
            parameters = (self.name.get(), self.price.get(), self.stock.get(), self.section.get())
            self.run_query(query, parameters)
            self.message['text'] = 'El Producto {} ha sido agregado!!'.format(self.name.get())
            self.message['font'] = ('Consolas',1411)
            self.message['bg'] ='#d4edda'
            self.message['fg'] ='#116158'
            # LIMPIAR CAMPOS
            self.name.delete(0, END)
            self.price.delete(0, END)
            self.stock.delete(0, END)
            self.section.delete(0, END)
            self.name.focus()
       
        else:
            self.message['text'] = 'Todos los campos son requeridos...'
            self.message['font'] = ('Consolas',1411)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
                
        self.get_products()

    # 13 - ELIMINAR PRODUCTOS
    def del_product(self):
        self.message['text'] = ''
        try:
            self.tree.item(self.tree.selection())['text'][0]
        except IndexError as e:
            self.message['text'] = 'Por favor selecciona un registro'
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
            return
        self.message['text'] = ''    
        name = self.tree.item(self.tree.selection())['text']
        query = 'DELETE FROM product WHERE name = ?'
        self.run_query(query, (name,))
        self.message['text'] = 'El Producto {} ha sido eliminado!!'.format(name)
        self.message['font'] = ('Consolas',11)
        self.message['bg'] ='#d4edda'
        self.message['fg'] ='#116158'
        self.name.focus()
        self.get_products()

    # 14 - EDITAR PRODUCTOS
    def edit_product(self):
        self.message['text'] = ''
        nuevo = Entry()
        try:
            self.tree.item(self.tree.selection())['text'][0]
        except IndexError as e:
            self.message['text'] = 'Por favor selecciona un registro'
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
            return
        name1 = self.tree.item(self.tree.selection())['text']
        Entry(frame, textvariable = StringVar(frame, value=name1)).grid(row = 1, column = 1, sticky = W)

    # 2 - VERIFICARLANZAR SIAPLICACION

class ESUpperEntry(Entry):
 EL ARCHIVO MAIN PARAdef CREAR__init__(self, Eparent, INICIAR*args, LA**kwargs):
 VENTANA PRINCIPAL      self._var = kwargs.get("textvariable") or StringVar(parent)
        super().__init__(parent, *args, **kwargs)
        self.configure(textvariable=self._var)
        self._to_upper()

    def config(self, cnf=None, **kwargs):
        self.configue(cnf, **kwargs)

    def configure(self, cnf=None, **kwargs):
        var = kwargs.get("textvariable")
        if var is not None:
            var.trace_add('write', self._to_upper)
            self._var = var
        super().config(cnf, **kwargs)

    def __setitem__(self, key, item):
        if key == "textvariable":
            item.trace_add('write', self._to_upper)
            self._var = item
        super.__setitem__(key, item)

    def _to_upper(self, *args):
        self._var.set(self._var.get().upper())

class CurrencyEntry(Frame):
    def __init__(
            self, parent, *args,
            currency_symbol="€", thousand_sep=".", decimal_sep=",", **kwargs
            ):
        super().__init__(parent, *args, **kwargs)
        self.configure(
            highlightbackground="#000000", highlightcolor="#000000",
            highlightthickness=1, relief=FLAT
            )
        self._int_var = StringVar(self)
        self._dec_var = StringVar(self)
        vcmd_int = (self.register(self.on_validate_int), '%S')
        vcmd_dec = (self.register(self.on_validate_dec), '%S')
        self._thousand_sep = thousand_sep
        self._decimal_sep = decimal_sep
        self._int_entry = Entry(
            self, textvariable=self._int_var,
            validate="key", validatecommand=vcmd_int,
            borderwidth=0, relief=FLAT, justify='right',
            width=15, highlightthickness=0
            )
        self._int_entry.pack(side="left", fill="x")

        self._dec_label = Label(
            self, text=decimal_sep, relief=FLAT, highlightthickness=0
            )
        self._dec_entry = Entry(
            self, textvariable=self._dec_var,
            validate="key", validatecommand=vcmd_dec,
            borderwidth=0, relief=FLAT, width=2,
            highlightthickness=0
        )

        self._sym_label = Label(
            self, text=currency_symbol, relief=FLAT, highlightthickness=0
            )
        self._sym_label.pack(side="left")

        self._int_last_index = True
        self._dec_first_index = False
        self._int_entry.bind('<KeyRelease>', self._on_int_release)
        self._dec_entry.bind('<KeyRelease>', self._on_dec_release)

    def on_validate_int(self, char):
        if char not in "0123456789" and char != self._decimal_sep:
            return False
        return True

    def on_validate_dec(self, char):
        if char not in "0123456789":
            return False
        return True

    def _on_int_release(self, event):
        if self._int_entry.index(INSERT) == self._int_entry.index(END):
            if self._int_last_index and event.keysym == "Right":
                self._last_index = False
                self._dec_entry.focus_set()
            else:
                self._int_last_index = True
        else:
            self._int_last_index = False

        text = self._int_var.get().replace(self._thousand_sep, "")
        if self._decimal_sep in text:
            int_, dec = text.split(self._decimal_sep)
            self._int_var.set(int_)
            self._sym_label.pack_forget()
            self._dec_label.pack(side="left")
            self._dec_entry.pack(side="left")
            self._sym_label.pack(side="left")
            self._dec_var.set(dec[:2])
            self._dec_entry.focus_set()
        self.set_thousand_sep()

    def _on_dec_release(self, event):
        key = event.keysym
        if key == "Left" and self._dec_entry.index(INSERT) == 0:
            if self._dec_first_index:
                self._dec_first_index = False
                self._int_entry.focus_set()
            else:
                self._dec_first_index = True

        elif key == "BackSpace" and self._dec_entry.index(INSERT) == 0:
            if self._dec_first_index:
                self._dec_label.pack_forget()
                if self._dec_var.get() and int(self._dec_var.get()):
                    self._int_var.set(
                        self._int_var.get() + self._dec_var.get()
                        )
                    self._dec_var.set("")
                self._dec_entry.pack_forget()
                self.set_thousand_sep()
                self._int_entry.focus_set()
                self._last_index = True
            self._dec_first_index = True
        else:
            self._dec_first_index = False

    def set_thousand_sep(self):
        if not (text:= self._int_var.get()):
            return
        sep = self._thousand_sep
        new_text = (f'{int(text.replace(self._thousand_sep, "")):,}'
                        .replace(",", self._thousand_sep)
                         )
        self._int_var.set(new_text)
        if (dif:= new_text.count(sep) - text.count(sep)) > 0:
            self._int_entry.icursor(self._int_entry.index(INSERT) + dif)

    def get(self):
        return decimal.Decimal(
            (f"{self._int_var.get().replace(self._thousand_sep, '')}"
             f".{self._dec_var.get()}")
            )

if __name__ == "__main__":
    window = Tk()
    # 3 - PASARLE LA VENTANA CREADA A LA CLASE PRODUCT COMO PARAMETRO(INSTANCIAR)
    aplication = Product(window)
    # 5 - EJECUTAR VENTANA
    window.mainloop()

from tkinter import ttk
from tkinter import *
import sqlite3

# APLICACION DE PRODUCTOS

# 1 - CREACION CLASE PRODUCT PARA MANEJAR TODAS LAS VENTANAS Y METODOS DE LA APLICACION DE PRODUCTOS
class Product:
    # 8 - CREAR VARIABLE PARA BD
    db_name = 'database.db'

    # 4 - DEFINIMOS EL CONSTRUCTOR Y TOMAMOS EL PARAMETRO QUE NOS ESTAN PASANDO AL INICIAR LA VENTANA
    def __init__(self, window):
        # 6 - CREAR PROPIEDAD U OBJETO PARA ALMACENAR LA VENTANA QUE ESTA RECIBIENDO EL CONSTRUCTOR
        self.win = window
        style = ttk.Style()
        self.win.title('Aplicacion de Productos')

        # 7 - CREACION INTERFAZ GRAFICA
        # FRAME CONTENEDOR
        frame = LabelFrame(self.win, text=' REGISTRAR UN NUEVO PRODUCTO: ')
        frame.grid(row = 0, column = 0, columnspan = 3, pady = 15, ipadx = 5, ipady = 5)
        
        # INPUT NAME
        Label(frame, text=' Nombre: ').grid(row = 1, column = 0, padx = 20, pady = 5, sticky = W)
        self.name = Entry(frame, width=45)
        self.name.focus()
        self.name.grid(row = 1, column = 1, sticky = W)

        # INPUT PRECIO
        Label(frame, text=' Precio: ').grid(row = 2, column = 0, padx = 20, pady = 5, sticky = W)
        self.price = Entry(frame, width=25)
        self.price.grid(row = 2, column = 1, sticky = W)

        # INPUT STOCK
        Label(frame, text=' Stock: ').grid(row = 3, column = 0, padx = 20, pady = 5, sticky = W)
        self.stock = Entry(frame, width=25)
        self.stock.grid(row = 3, column = 1, sticky = W)

        # INPUT SECCION
        Label(frame, text=' Seccion: ').grid(row = 4, column = 0, padx = 20, pady = 5, sticky = W)
        self.section = Entry(frame, width=45)
        self.section.grid(row = 4, column = 1, sticky = W)

        # BOTON AGREGAR PRODUCTO
        style = ttk.Style ()
        
        style.configure('TButton', font = ('calibri', 10, 'bold', 'underline'), background = '#cbe5fe', foreground = 'red') 

        ttk.Button(frame, text='Agregar Producto',  style = 'TButton', command=self.add_product).grid(row = 5, columnspan = 2, padx=5, pady = 10, sticky = W + E)
        
        # LABEL PARA MENSAJES DE SALIDA
        self.message = Label(text = '')
        self.message.grid(row = 6, column = 0, columnspan = 5, sticky = W + E, padx = 150)

        # TABLA
        frame2 = LabelFrame(self.win, text=' LISTADO DE PRODUCTOS: ')
        frame2.grid(row = 7, column = 0, columnspan = 3, padx = 20, pady = 15)

        self.tree = ttk.Treeview(frame2, height = 10, columns=("#1", "#2", "#3"))
        self.tree.grid(row = 8, column = 0, columnspan = 2, padx = 20, pady = 10)
        self.tree.heading("#0", text="Nombre", anchor = CENTER)         
        self.tree.heading("#1", text="Precio", anchor = CENTER)
        self.tree.heading("#2", text="Stock", anchor = CENTER)
        self.tree.heading("#3", text="Seccion", anchor = CENTER)

        # SCROLL VERTICAL TREEVIEW
        scrolvert = Scrollbar(frame2, command = self.tree.yview)
        scrolvert.grid(row=8, column=2, sticky="nsew")
        self.tree.config(yscrollcommand=scrolvert.set)

         # SCROLL HORIZONTAL TREEVIEW
        scrolhoriz = Scrollbar(frame2, command = self.tree.xview, orient='horizontal')
        scrolhoriz.grid(row=12, column=0, columnspan=2, sticky="news")
        self.tree.config(xscrollcommand=scrolhoriz.set)

        self.get_products()
    
    # 9 - CREAR METODO PARA CONECTAR Y HACER CONSULTAS A LA BASE DE DATOS
    def run_query(self, query, parameters = ()):
        with sqlite3.connect(self.db_name) as conn:
            cursor = conn.cursor()
            result = cursor.execute(query,parameters)
            conn.commit()
        return result

    # 10 - OBTENER DATOS DE LA TABLA product
    def get_products(self):
        
        #limpiando treeview
        records = self.tree.get_children()
        for element in records:
            self.tree.delete(element)

        # ejeutando consulta    
        query = 'SELECT * FROM product ORDER BY name DESC'
        db_rows = self.run_query(query)
        
        # llenando data
        for row in db_rows:
            #print(row)
            self.tree.insert('',0,text = row[1], values = (row[2], row[3], row[4]))

        # activando focus en la tabla
        child_id = self.tree.get_children()[-1] # for instance the last element in tuple
        self.tree.focus(child_id)
        self.tree.selection_set(child_id)    
    
    def validation(self):
        return len(self.name.get()) != 0 and len(self.price.get()) != 0

    def add_product(self):
        if self.validation():
            query = 'INSERT INTO product VALUES (NULL, ?, ?, ?, ?)'
            parameters = (self.name.get(), self.price.get(), self.stock.get(), self.section.get())
            self.run_query(query, parameters)
            self.message['text'] = 'El Producto {} ha sido agregado!!'.format(self.name.get())
            self.message['font'] = ('Consolas',14)
            self.message['bg'] ='#d4edda'
            self.message['fg'] ='#116158'
            # LIMPIAR CAMPOS
            self.name.delete(0, END)
            self.price.delete(0, END)
            self.stock.delete(0, END)
            self.section.delete(0, END)
            self.name.focus()
        else:
            self.message['text'] = 'Todos los campos son requeridos...'
            self.message['font'] = ('Consolas',14)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
        
        self.get_products()

    # 2 - VERIFICAR SI ES EL ARCHIVO MAIN PARA CREAR E INICIAR LA VENTANA PRINCIPAL
if __name__ == "__main__":
    window = Tk()
    # 3 - PASARLE LA VENTANA CREADA A LA CLASE PRODUCT COMO PARAMETRO(INSTANCIAR)
    aplication = Product(window)
    # 5 - EJECUTAR VENTANA
    window.mainloop()

from tkinter import ttk
from tkinter import *
import sqlite3

# ------------- APLICACION DE PRODUCTOS--------------

# 1 - CREACION CLASE PRODUCT PARA MANEJAR TODAS LAS VENTANAS Y METODOS DE LA APLICACION DE PRODUCTOS
class Product:
    # 8 - CREAR VARIABLE PARA BD
    db_name = 'database.db'

    # 4 - DEFINIMOS EL CONSTRUCTOR Y TOMAMOS EL PARAMETRO QUE NOS ESTAN PASANDO AL INICIAR LA VENTANA
    def __init__(self, window):
 
        # 6 - CREAR PROPIEDAD U OBJETO PARA ALMACENAR LA VENTANA QUE ESTA RECIBIENDO EL CONSTRUCTOR
        self.win = window
        self.win.title('Aplicacion de Productos')

        self.interfaz_inicial()
        
        # BOTON AGREGAR PRODUCTO
        ttk.Button(frame, text='AGREGAR PRODUCTO', command=self.add_product).grid(row = 5, columnspan = 2, ipadx=40, pady = 10)
        
        # LABEL PARA MENSAJES DE SALIDA
        self.message = Label(text = '')
        self.message.grid(row = 6, column = 0, columnspan = 5, sticky = W + E, padx = 150)

        # TABLA
        frame2 = LabelFrame(self.win, text=' LISTADO DE PRODUCTOS: ')
        frame2.grid(row = 7, column = 0, columnspan = 3, padx = 20, pady = 15)

        self.tree = ttk.Treeview(frame2, height = 10, columns=("#1", "#2", "#"))
        self.tree.grid(row = 7, column = 0, columnspan = 2, padx = 20, pady = 10)
        self.tree.heading("#0", text="Nombre", anchor = CENTER)         
        self.tree.heading("#1", text="Precio", anchor = CENTER)
        self.tree.heading("#2", text="Stock", anchor = CENTER)
        self.tree.heading("#3", text="Seccion", anchor = CENTER)
        
        # SCROLL VERTICAL TREEVIEW
        scrolvert = Scrollbar(frame2, command = self.tree.yview)
        scrolvert.grid(row=7, column=2, sticky="nsew")
        self.tree.config(yscrollcommand=scrolvert.set)

         # SCROLL HORIZONTAL TREEVIEW
        scrolhoriz = Scrollbar(frame2, command = self.tree.xview, orient='horizontal')
        scrolhoriz.grid(row=12, column=0, columnspan=2, sticky="news")
        self.tree.config(xscrollcommand=scrolhoriz.set)

        # BOTONES
        ttk.Button(text='EDIT', command=self.edit_product).grid(row = 13, column = 0, columnspan=2, ipadx = 50, pady = 10)
        ttk.Button(text='DELETE', command=self.del_product).grid(row = 13, column = 1, columnspan=2, ipadx = 50, pady = 10)

        self.get_products()
    
    # 7 - CREACION INTERFAZ GRAFICA
    def interfaz_inicial(self):

        global frame
        # FUNCION PARA TRANSFORMAR A MAYUSCULA
       
        # FRAME CONTENEDOR
        frame = LabelFrame(self.win, text=' REGISTRAR UN NUEVO PRODUCTO: ')
        frame.grid(row = 0, column = 0, columnspan = 3, pady = 15, ipadx = 5, ipady = 5)
        
        # INPUT NAME
        Label(frame, text=' Nombre: ').grid(row = 1, column = 0, padx = 20, pady = 5, sticky = W)
        #self.name = Entry(frame, width=45)
        self.name = UpperEntry(frame, width=45)
        self.name.grid(row = 1, column = 1, sticky = W)
        self.name.focus()
        
        # INPUT PRECIO
        Label(frame, text=' Precio: ').grid(row = 2, column = 0, padx = 20, pady = 5, sticky = W)
        #self.price = Entry(frame, width=25)
        #self.price = UpperEntry(frame, width=25)
        self.price = CurrencyEntry(frame, width=25)
        self.price.grid(row = 2, column = 1, sticky = W)
        
        # INPUT STOCK
        Label(frame, text=' Stock: ').grid(row = 3, column = 0, padx = 20, pady = 5, sticky = W)
        #self.stock = Entry(frame, width=25)
        self.stock = UpperEntry(frame, width=25)
        self.stock.grid(row = 3, column = 1, sticky = W)

        # INPUT SECCION
        Label(frame, text=' Seccion: ').grid(row = 4, column = 0, padx = 20, pady = 5, sticky = W)
        #self.section = Entry(frame, width=45)
        self.section = UpperEntry(frame, width=45)
        self.section.grid(row = 4, column = 1, sticky = W)

        # BOTON AGREGAR PRODUCTO
        ttk.Button(frame, text='AGREGAR PRODUCTO', command=self.add_product).grid(row = 5, columnspan = 2, ipadx=40, pady = 10)
        
    # 9 - CREAR METODO PARA CONECTAR Y HACER CONSULTAS A LA BASE DE DATOS
    def run_query(self, query, parameters = ()):
        with sqlite3.connect(self.db_name) as conn:
            cursor = conn.cursor()
            result = cursor.execute(query,parameters)
            conn.commit()
        return result

    # 10 - OBTENER DATOS DE LA TABLA product
    def get_products(self):
        
        #limpiando treeview
        records = self.tree.get_children()
        for element in records:
            self.tree.delete(element)

        # ejeutando consulta    
        query = 'SELECT * FROM product ORDER BY name DESC'
        db_rows = self.run_query(query)
        
        # llenando data
        for row in db_rows:
            #print(row)
            self.tree.insert('',0,text = row[1], values = (row[2], row[3], row[4]))

    # 11 - VALIDAR CAMPOS
    
    def validation(self):
        return len(self.name.get()) != 0  and len(self.price.get()) != 0 and len(self.stock.get()) != 0 and len(self.section.get()) != 0
    
    # 12 - AGREGAR PRODUCTOS
    def add_product(self):
 
        if self.validation():
 
            query = 'INSERT INTO product VALUES (NULL, ?, ?, ?, ?)'
            parameters = (self.name.get(), self.price.get(), self.stock.get(), self.section.get())
            self.run_query(query, parameters)
            self.message['text'] = 'El Producto {} ha sido agregado!!'.format(self.name.get())
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#d4edda'
            self.message['fg'] ='#116158'
            # LIMPIAR CAMPOS
            self.name.delete(0, END)
            self.price.delete(0, END)
            self.stock.delete(0, END)
            self.section.delete(0, END)
            self.name.focus()
       
        else:
            self.message['text'] = 'Todos los campos son requeridos...'
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
                
        self.get_products()

    # 13 - ELIMINAR PRODUCTOS
    def del_product(self):
        self.message['text'] = ''
        try:
            self.tree.item(self.tree.selection())['text'][0]
        except IndexError as e:
            self.message['text'] = 'Por favor selecciona un registro'
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
            return
        self.message['text'] = ''    
        name = self.tree.item(self.tree.selection())['text']
        query = 'DELETE FROM product WHERE name = ?'
        self.run_query(query, (name,))
        self.message['text'] = 'El Producto {} ha sido eliminado!!'.format(name)
        self.message['font'] = ('Consolas',11)
        self.message['bg'] ='#d4edda'
        self.message['fg'] ='#116158'
        self.name.focus()
        self.get_products()

    # 14 - EDITAR PRODUCTOS
    def edit_product(self):
        self.message['text'] = ''
        nuevo = Entry()
        try:
            self.tree.item(self.tree.selection())['text'][0]
        except IndexError as e:
            self.message['text'] = 'Por favor selecciona un registro'
            self.message['font'] = ('Consolas',11)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
            return
        name1 = self.tree.item(self.tree.selection())['text']
        Entry(frame, textvariable = StringVar(frame, value=name1)).grid(row = 1, column = 1, sticky = W)

    # 2 - LANZAR APLICACION

class UpperEntry(Entry):
    def __init__(self, parent, *args, **kwargs):
        self._var = kwargs.get("textvariable") or StringVar(parent)
        super().__init__(parent, *args, **kwargs)
        self.configure(textvariable=self._var)
        self._to_upper()

    def config(self, cnf=None, **kwargs):
        self.configue(cnf, **kwargs)

    def configure(self, cnf=None, **kwargs):
        var = kwargs.get("textvariable")
        if var is not None:
            var.trace_add('write', self._to_upper)
            self._var = var
        super().config(cnf, **kwargs)

    def __setitem__(self, key, item):
        if key == "textvariable":
            item.trace_add('write', self._to_upper)
            self._var = item
        super.__setitem__(key, item)

    def _to_upper(self, *args):
        self._var.set(self._var.get().upper())

class CurrencyEntry(Frame):
    def __init__(
            self, parent, *args,
            currency_symbol="€", thousand_sep=".", decimal_sep=",", **kwargs
            ):
        super().__init__(parent, *args, **kwargs)
        self.configure(
            highlightbackground="#000000", highlightcolor="#000000",
            highlightthickness=1, relief=FLAT
            )
        self._int_var = StringVar(self)
        self._dec_var = StringVar(self)
        vcmd_int = (self.register(self.on_validate_int), '%S')
        vcmd_dec = (self.register(self.on_validate_dec), '%S')
        self._thousand_sep = thousand_sep
        self._decimal_sep = decimal_sep
        self._int_entry = Entry(
            self, textvariable=self._int_var,
            validate="key", validatecommand=vcmd_int,
            borderwidth=0, relief=FLAT, justify='right',
            width=15, highlightthickness=0
            )
        self._int_entry.pack(side="left", fill="x")

        self._dec_label = Label(
            self, text=decimal_sep, relief=FLAT, highlightthickness=0
            )
        self._dec_entry = Entry(
            self, textvariable=self._dec_var,
            validate="key", validatecommand=vcmd_dec,
            borderwidth=0, relief=FLAT, width=2,
            highlightthickness=0
        )

        self._sym_label = Label(
            self, text=currency_symbol, relief=FLAT, highlightthickness=0
            )
        self._sym_label.pack(side="left")

        self._int_last_index = True
        self._dec_first_index = False
        self._int_entry.bind('<KeyRelease>', self._on_int_release)
        self._dec_entry.bind('<KeyRelease>', self._on_dec_release)

    def on_validate_int(self, char):
        if char not in "0123456789" and char != self._decimal_sep:
            return False
        return True

    def on_validate_dec(self, char):
        if char not in "0123456789":
            return False
        return True

    def _on_int_release(self, event):
        if self._int_entry.index(INSERT) == self._int_entry.index(END):
            if self._int_last_index and event.keysym == "Right":
                self._last_index = False
                self._dec_entry.focus_set()
            else:
                self._int_last_index = True
        else:
            self._int_last_index = False

        text = self._int_var.get().replace(self._thousand_sep, "")
        if self._decimal_sep in text:
            int_, dec = text.split(self._decimal_sep)
            self._int_var.set(int_)
            self._sym_label.pack_forget()
            self._dec_label.pack(side="left")
            self._dec_entry.pack(side="left")
            self._sym_label.pack(side="left")
            self._dec_var.set(dec[:2])
            self._dec_entry.focus_set()
        self.set_thousand_sep()

    def _on_dec_release(self, event):
        key = event.keysym
        if key == "Left" and self._dec_entry.index(INSERT) == 0:
            if self._dec_first_index:
                self._dec_first_index = False
                self._int_entry.focus_set()
            else:
                self._dec_first_index = True

        elif key == "BackSpace" and self._dec_entry.index(INSERT) == 0:
            if self._dec_first_index:
                self._dec_label.pack_forget()
                if self._dec_var.get() and int(self._dec_var.get()):
                    self._int_var.set(
                        self._int_var.get() + self._dec_var.get()
                        )
                    self._dec_var.set("")
                self._dec_entry.pack_forget()
                self.set_thousand_sep()
                self._int_entry.focus_set()
                self._last_index = True
            self._dec_first_index = True
        else:
            self._dec_first_index = False

    def set_thousand_sep(self):
        if not (text:= self._int_var.get()):
            return
        sep = self._thousand_sep
        new_text = (f'{int(text.replace(self._thousand_sep, "")):,}'
                        .replace(",", self._thousand_sep)
                         )
        self._int_var.set(new_text)
        if (dif:= new_text.count(sep) - text.count(sep)) > 0:
            self._int_entry.icursor(self._int_entry.index(INSERT) + dif)

    def get(self):
        return decimal.Decimal(
            (f"{self._int_var.get().replace(self._thousand_sep, '')}"
             f".{self._dec_var.get()}")
            )

if __name__ == "__main__":
    window = Tk()
    # 3 - PASARLE LA VENTANA CREADA A LA CLASE PRODUCT COMO PARAMETRO(INSTANCIAR)
    aplication = Product(window)
    # 5 - EJECUTAR VENTANA
    window.mainloop()
Origen Enlace
Jose Henao
Jose Henao
  • 53
  • 4
  • 10

Como lograr poner Mayúscula en los campos de tipo Entry y Formatear números en Python

Cordial saludo a todos.

Tengo un pequeño código en Python en el cual estoy capturando unos campos para agregarlos abajo en un Treeview, y me gustaría por favor saber como hacer lo siguiente (soy principiante en esto):

  1. Lograr que lo que se ingrese en el campo "name" (Entry) de mi formulario quede siempre en mayúscula. He tratado de usar la función "upper()", pero me sale error.

  2. Así mismo que lo que se capture en el campo "precio", quede con su separador de miles y el formato de moneda respectivo, y así se refleje igual abajo en la tabla.

Les dejo mi código y copia de la base de datos de prueba Aqui. Gracias.

from tkinter import ttk
from tkinter import *
import sqlite3

# APLICACION DE PRODUCTOS

# 1 - CREACION CLASE PRODUCT PARA MANEJAR TODAS LAS VENTANAS Y METODOS DE LA APLICACION DE PRODUCTOS
class Product:
    # 8 - CREAR VARIABLE PARA BD
    db_name = 'database.db'

    # 4 - DEFINIMOS EL CONSTRUCTOR Y TOMAMOS EL PARAMETRO QUE NOS ESTAN PASANDO AL INICIAR LA VENTANA
    def __init__(self, window):
        # 6 - CREAR PROPIEDAD U OBJETO PARA ALMACENAR LA VENTANA QUE ESTA RECIBIENDO EL CONSTRUCTOR
        self.win = window
        style = ttk.Style()
        self.win.title('Aplicacion de Productos')

        # 7 - CREACION INTERFAZ GRAFICA
        # FRAME CONTENEDOR
        frame = LabelFrame(self.win, text=' REGISTRAR UN NUEVO PRODUCTO: ')
        frame.grid(row = 0, column = 0, columnspan = 3, pady = 15, ipadx = 5, ipady = 5)
        
        # INPUT NAME
        Label(frame, text=' Nombre: ').grid(row = 1, column = 0, padx = 20, pady = 5, sticky = W)
        self.name = Entry(frame, width=45)
        self.name.focus()
        self.name.grid(row = 1, column = 1, sticky = W)

        # INPUT PRECIO
        Label(frame, text=' Precio: ').grid(row = 2, column = 0, padx = 20, pady = 5, sticky = W)
        self.price = Entry(frame, width=25)
        self.price.grid(row = 2, column = 1, sticky = W)

        # INPUT STOCK
        Label(frame, text=' Stock: ').grid(row = 3, column = 0, padx = 20, pady = 5, sticky = W)
        self.stock = Entry(frame, width=25)
        self.stock.grid(row = 3, column = 1, sticky = W)

        # INPUT SECCION
        Label(frame, text=' Seccion: ').grid(row = 4, column = 0, padx = 20, pady = 5, sticky = W)
        self.section = Entry(frame, width=45)
        self.section.grid(row = 4, column = 1, sticky = W)

        # BOTON AGREGAR PRODUCTO
        style = ttk.Style ()
        
        style.configure('TButton', font = ('calibri', 10, 'bold', 'underline'), background = '#cbe5fe', foreground = 'red') 

        ttk.Button(frame, text='Agregar Producto',  style = 'TButton', command=self.add_product).grid(row = 5, columnspan = 2, padx=5, pady = 10, sticky = W + E)
        
        # LABEL PARA MENSAJES DE SALIDA
        self.message = Label(text = '')
        self.message.grid(row = 6, column = 0, columnspan = 5, sticky = W + E, padx = 150)

        # TABLA
        frame2 = LabelFrame(self.win, text=' LISTADO DE PRODUCTOS: ')
        frame2.grid(row = 7, column = 0, columnspan = 3, padx = 20, pady = 15)

        self.tree = ttk.Treeview(frame2, height = 10, columns=("#1", "#2", "#3"))
        self.tree.grid(row = 8, column = 0, columnspan = 2, padx = 20, pady = 10)
        self.tree.heading("#0", text="Nombre", anchor = CENTER)         
        self.tree.heading("#1", text="Precio", anchor = CENTER)
        self.tree.heading("#2", text="Stock", anchor = CENTER)
        self.tree.heading("#3", text="Seccion", anchor = CENTER)

        # SCROLL VERTICAL TREEVIEW
        scrolvert = Scrollbar(frame2, command = self.tree.yview)
        scrolvert.grid(row=8, column=2, sticky="nsew")
        self.tree.config(yscrollcommand=scrolvert.set)

         # SCROLL HORIZONTAL TREEVIEW
        scrolhoriz = Scrollbar(frame2, command = self.tree.xview, orient='horizontal')
        scrolhoriz.grid(row=12, column=0, columnspan=2, sticky="news")
        self.tree.config(xscrollcommand=scrolhoriz.set)

        self.get_products()
    
    # 9 - CREAR METODO PARA CONECTAR Y HACER CONSULTAS A LA BASE DE DATOS
    def run_query(self, query, parameters = ()):
        with sqlite3.connect(self.db_name) as conn:
            cursor = conn.cursor()
            result = cursor.execute(query,parameters)
            conn.commit()
        return result

    # 10 - OBTENER DATOS DE LA TABLA product
    def get_products(self):
        
        #limpiando treeview
        records = self.tree.get_children()
        for element in records:
            self.tree.delete(element)

        # ejeutando consulta    
        query = 'SELECT * FROM product ORDER BY name DESC'
        db_rows = self.run_query(query)
        
        # llenando data
        for row in db_rows:
            #print(row)
            self.tree.insert('',0,text = row[1], values = (row[2], row[3], row[4]))

        # activando focus en la tabla
        child_id = self.tree.get_children()[-1] # for instance the last element in tuple
        self.tree.focus(child_id)
        self.tree.selection_set(child_id)    
    
    def validation(self):
        return len(self.name.get()) != 0 and len(self.price.get()) != 0

    def add_product(self):
        if self.validation():
            query = 'INSERT INTO product VALUES (NULL, ?, ?, ?, ?)'
            parameters = (self.name.get(), self.price.get(), self.stock.get(), self.section.get())
            self.run_query(query, parameters)
            self.message['text'] = 'El Producto {} ha sido agregado!!'.format(self.name.get())
            self.message['font'] = ('Consolas',14)
            self.message['bg'] ='#d4edda'
            self.message['fg'] ='#116158'
            # LIMPIAR CAMPOS
            self.name.delete(0, END)
            self.price.delete(0, END)
            self.stock.delete(0, END)
            self.section.delete(0, END)
            self.name.focus()
        else:
            self.message['text'] = 'Todos los campos son requeridos...'
            self.message['font'] = ('Consolas',14)
            self.message['bg'] ='#f7d7da'
            self.message['fg'] ='#89312f'
            self.name.focus()
        
        self.get_products()

    # 2 - VERIFICAR SI ES EL ARCHIVO MAIN PARA CREAR E INICIAR LA VENTANA PRINCIPAL
if __name__ == "__main__":
    window = Tk()
    # 3 - PASARLE LA VENTANA CREADA A LA CLASE PRODUCT COMO PARAMETRO(INSTANCIAR)
    aplication = Product(window)
    # 5 - EJECUTAR VENTANA
    window.mainloop()

----ESTRUCTURA TABLA product (nombre base de datos: database.db) introducir la descripción de la imagen aquí