本文实例为大家分享了python3.5仿微软计算器的具体代码,供大家参考,具体内容如下
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from tkinter import *
from math import *
root = Tk()
root.title( "计算器" )
root.geometry( "1200x260+0+0" )
def come(event):
event.widget[ "background" ] = "orange" #event的widget方法,恩,恩,值得看看
def go(event):
event.widget[ "background" ] = "#%02x%02x%02x" % ( 240 , 240 , 240 )#实现RGB和十六进制的换算
def num1():
text.insert(END, 1 )
def num2():
text.insert(END, 2 )
def num3():
text.insert(END, 3 )
def num4():
text.insert(END, 4 )
def num5():
text.insert(END, 5 )
def num6():
text.insert(END, 6 )
def num7():
text.insert(END, 7 )
def num8():
text.insert(END, 8 )
def num9():
text.insert(END, 9 )
def num0():
if text.get(END) = = "/" :
messagebox.showinfo(title = "除数不能为零" )
else :
text.insert(END, 0 )
def dot_it():
text.insert(END, "." )
def Addnum():
if text.get( 1.0 ,END):
text.insert(END, "+" )
def minus_num():
if text.get( 1.0 ,END):
text.insert(END, "-" )
def times_num():
if text.get( 1.0 ,END):
text.insert(END, "*" )
def div_num():
if text.get( 1.0 ,END):
text.insert(END, "/" )
def equal_it(): #可以使用text的search方法排除除法和开根号的例外
global list_power,x,list_log,xylog
se = text.get( 1.0 ,END)
if se:
if "/" in text.get( 1.0 ,END):
div_pos = text.search( "/" , 1.0 ,END)
pos = div_pos.split( "." )
text_row = pos[ 0 ]
text_column = pos[ 1 ]
newpos = "%d.%d" % ( int (text_row), int (text_column) + 1 )
cool = eval (text.get(newpos,END))
if cool = = 0 :
text_alert.insert( 1.0 , "被除数不能为零" )
return
else :
se = eval (se)
text.delete( 1.0 ,END)
text.insert( 1.0 ,se)
elif xypower = = True : #通过设全局变量为哨兵,看函数是否被调用
list_power.append( eval (se))
text.delete( 1.0 ,END)
text.insert( 1.0 , pow (list_power[ 0 ],list_power[ 1 ]))
list_power = []
elif xylog = = True :
list_log.append( eval (se))
text.delete( 1.0 ,END)
text.insert( 1.0 ,log(list_log[ 1 ],list_log[ 0 ]))
list_log = []
else :
se = eval (se)
text.delete( 1.0 ,END)
text.insert( 1.0 ,se)
else :
text.delete( 1.0 ,END)
def negative():
text.insert(END, "-" )
def Square_root():
if eval (text.get( 1.0 ,END))> = 0 :
rootit = sqrt( eval (text.get( 1.0 ,END)))
text.delete( 1.0 ,END)
text.insert( 1.0 ,rootit)
def Per():
if text.get( 1.0 ,END):
num = eval (text.get( 1.0 ,END))
text.insert(END, "%" )
newnum = num * 0.01
text.delete( 1.0 ,END)
text.insert( 1.0 ,newnum)
def Reci_num():
#text.get(1.0,"%s-2c" % END).strip("\n")
#if text.get(1.0,"%s-1c" % END).isdigit():
# if type(aa)==type(bb) 可以用来判断数据类型
# if type(aa)==type(1)
#if type(aa)==type("我")
#if type(aa)==type(3.14)
if eval (text.get( 1.0 ,END))! = 0 :
num = eval (text.get( 1.0 ,END).strip( "\n" ))
num = 1 / num
text.delete( 1.0 ,END)
text.insert( 1.0 ,num)
else :
text_alert.insert( 1.0 , "零不能求倒数" )
def C():
global memorylist,list_power,list_log # global的用法
text.delete( 1.0 ,END)
text_alert.delete( 1.0 ,END)
memorylist = []
list_power = []
list_log = []
def CE():
text.delete( 1.0 ,END)
text_alert.delete( 1.0 ,END)
def delete_onechar():
text.delete( "%s-1c" % INSERT,INSERT) #字符index的移动
def Mc():
global memorylist
memorylist = []
def Ms():
global memorylist
memorylist.append( eval (text.get( 1.0 ,END)))
text.delete( 1.0 ,END)
def M_plus():
global memorylist
global m_plus
m_plus = True
memorylist.append( eval (text.get( 1.0 ,END)))
text.delete( 1.0 ,END)
return True
def M_minus():
global memorylist
global m_minus
m_minus = True
memorylist.append( eval (text.get( 1.0 ,END)))
text.delete( 1.0 ,END)
return True
def Mr():
global memorylist
global m_plus
global m_minus
text.delete( 1.0 ,END)
if m_plus = = True :
sum1 = 0
for i in range ( len (memorylist)):
sum1 = sum1 + memorylist[i]
memorylist = []
memorylist.append(sum1)
text.insert( 1.0 ,sum1)
elif m_minus = = True :
difference = 0
for i in range ( len (memorylist)):
difference = memorylist[i] - difference
difference = - difference
memorylist.append(difference)
text.insert( 1.0 ,difference)
def angle_radio():
text.delete( 1.0 ,END)
global angle_is
angle_is = True
def radium_radio():
text.delete( 1.0 ,END)
global radium_is
radium_is = True
def angle_choice():
global x
if angle_is = = True :
x = pi * eval (text.get( 1.0 ,END)) / 180
if radium_is = = True :
x = eval (text.get( 1.0 ,END))
def circle_ratio():
text.insert(END,pi)
def sin_x():
global x
angle_choice()
text.delete( 1.0 ,END)
text.insert( 1.0 ,sin(x))
def cos_x():
global x
angle_choice()
text.delete( 1.0 ,END)
text.insert( 1.0 ,cos(x))
def tan_x():
angle_choice()
if x = = 90 or x = = pi / 2 :
text_alert.insert( 1.0 , "正切角度不能为90度或π/2弧度" )
return
else :
text.delete( 1.0 ,END)
text.insert( 1.0 ,tan(x))
def square_it():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 , pow (temp, 2 ))
def x_ypower():
global list_power,x,xypower
xypower = True
x = eval (text.get( 1.0 ,END))
list_power.append(x)
text.delete( 1.0 ,END)
def tri_power():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 , pow (temp, 3 ))
def Bracket_left():
text.insert(END, "(" )
def Bracket_right():
text.insert(END, ")" )
def nature_log():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,log1p(temp))
def deci_log():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,log10(temp))
def bina_log():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,log2(temp))
def y_based_on_x_log():
global list_log,x,xylog
xylog = True
x = eval (text.get( 1.0 ,END))
list_log.append(x)
text.delete( 1.0 ,END)
def natur_const():
text.insert(END,e)
def anti_sin():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,asin(temp) * 180 / pi)
def anti_cos():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,acos(temp) * 180 / pi)
def anti_tan():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,atan(temp) * 180 / pi)
def sqrt_num():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 ,sqrt(temp))
def tri_root():
temp = eval (text.get( 1.0 ,END))
text.delete( 1.0 ,END)
text.insert( 1.0 , pow (temp, 1 / 3 ))
def standard():
MC = Button(root,text = "MC" ,width = 10 ,command = Mc)
MC.bind( "<Enter>" ,come)
MC.bind( "<Leave>" ,go)
MC.grid(row = 2 ,column = 0 ,sticky = W,padx = 1 )
MR = Button(root,text = "MR" ,width = 10 ,command = Mr)
MR.grid(row = 2 ,column = 1 ,stick = W,padx = 1 )
MR.bind( "<Enter>" ,come)
MR.bind( "<Leave>" ,go)
MS = Button(root,text = "MS" ,width = 10 ,command = Ms)
MS.grid(row = 2 ,column = 2 ,sticky = W,padx = 1 )
MS.bind( "<Enter>" ,come)
MS.bind( "<Leave>" ,go)
M_ADD = Button(root,text = "M+" ,width = 10 ,command = M_plus)
M_ADD.grid(row = 2 ,column = 3 ,sticky = W,padx = 1 )
M_ADD.bind( "<Enter>" ,come)
M_ADD.bind( "<Leave>" ,go)
M_ADD.bind( "<>" )
M_Minus = Button(root,text = "M-" ,width = 10 ,command = M_minus)
M_Minus.grid(row = 2 ,column = 4 ,sticky = W,padx = 1 )
M_Minus.bind( "<Enter>" ,come)
M_Minus.bind( "<Leave>" ,go)
DEL = Button(root,text = "→" ,width = 10 ,command = delete_onechar)
DEL.grid(row = 3 ,column = 0 ,sticky = W,padx = 1 )
DEL.bind( "<Enter>" ,come)
DEL.bind( "<Leave>" ,go)
CEbtn = Button(root,text = "CE" ,width = 10 ,command = CE)
CEbtn.grid(row = 3 ,column = 1 ,sticky = W,padx = 1 )
CEbtn.bind( "<Enter>" ,come)
CEbtn.bind( "<Leave>" ,go)
Cbtn = Button(root,text = "C" ,width = 10 ,command = C)
Cbtn.grid(row = 3 ,column = 2 ,sticky = W,padx = 1 )
Cbtn.bind( "<Enter>" ,come)
Cbtn.bind( "<Leave>" ,go)
negativ = Button(root,text = "负号 - " ,width = 10 ,command = negative)
negativ.grid(row = 3 ,column = 3 ,sticky = W,padx = 1 )
negativ.bind( "<Enter>" ,come)
negativ.bind( "<Leave>" ,go)
sqr_root = Button(root,text = "平方根√" ,width = 10 ,command = Square_root )
sqr_root.grid(row = 3 ,column = 4 ,sticky = W,padx = 1 )
sqr_root.bind( "<Enter>" ,come)
sqr_root.bind( "<Leave>" ,go)
btn7 = Button(root,text = 7 ,width = 10 ,command = num7)
btn7.grid(row = 4 ,column = 0 ,sticky = W,padx = 1 )
btn7.bind( "<Enter>" ,come)
btn7.bind( "<Leave>" ,go)
btn8 = Button(root,text = 8 ,width = 10 ,command = num8)
btn8.grid(row = 4 ,column = 1 ,sticky = W,padx = 1 )
btn8.bind( "<Enter>" ,come)
btn8.bind( "<Leave>" ,go)
btn9 = Button(root,text = 9 ,width = 10 ,command = num9)
btn9.grid(row = 4 ,column = 2 ,sticky = W,padx = 1 )
btn9.bind( "<Enter>" ,come)
btn9.bind( "<Leave>" ,go)
div = Button(root,text = "除法 /" ,width = 10 ,command = div_num)
div.grid(row = 4 ,column = 3 ,sticky = W,padx = 1 )
div.bind( "<Enter>" ,come)
div.bind( "<Leave>" ,go)
per = Button(root,text = "百分之 %" ,width = 10 ,command = Per)
per.grid(row = 4 ,column = 4 ,sticky = W,padx = 1 )
per.bind( "<Enter>" ,come)
per.bind( "<Leave>" ,go)
btn4 = Button(root,text = 4 ,width = 10 ,command = num4)
btn4.grid(row = 5 ,column = 0 ,sticky = W,padx = 1 )
btn4.bind( "<Enter>" ,come)
btn4.bind( "<Leave>" ,go)
btn5 = Button(root,text = 5 ,width = 10 ,command = num5)
btn5.grid(row = 5 ,column = 1 ,sticky = W,padx = 1 )
btn5.bind( "<Enter>" ,come)
btn5.bind( "<Leave>" ,go)
btn6 = Button(root,text = 6 ,width = 10 ,command = num6)
btn6.grid(row = 5 ,column = 2 ,sticky = W,padx = 1 )
btn6.bind( "<Enter>" ,come)
btn6.bind( "<Leave>" ,go)
times = Button(root,text = "乘法 ×" ,width = 10 ,command = times_num)
times.grid(row = 5 ,column = 3 ,sticky = W,padx = 1 )
times.bind( "<Enter>" ,come)
times.bind( "<Leave>" ,go)
reciprocal = Button(root,text = "倒数 1/x" ,width = 10 ,command = Reci_num)
reciprocal.grid(row = 5 ,column = 4 ,sticky = W,padx = 1 )
reciprocal.bind( "<Enter>" ,come)
reciprocal.bind( "<Leave>" ,go)
btn1 = Button(root,text = 1 ,width = 10 ,command = num1)
btn1.grid(row = 6 ,column = 0 ,sticky = W,padx = 1 )
btn1.bind( "<Enter>" ,come)
btn1.bind( "<Leave>" ,go)
btn2 = Button(root,text = 2 ,width = 10 ,command = num2)
btn2.grid(row = 6 ,column = 1 ,sticky = W,padx = 1 )
btn2.bind( "<Enter>" ,come)
btn2.bind( "<Leave>" ,go)
btn3 = Button(root,text = 3 ,width = 10 ,command = num3)
btn3.grid(row = 6 ,column = 2 ,sticky = W,padx = 1 )
btn3.bind( "<Enter>" ,come)
btn3.bind( "<Leave>" ,go)
minus = Button(root,text = "减 - " ,width = 10 ,command = minus_num )
minus.grid(row = 6 ,column = 3 ,sticky = W,padx = 1 )
minus.bind( "<Enter>" ,come)
minus.bind( "<Leave>" ,go)
equal = Button(root,text = "=" ,width = 10 ,height = 3 ,command = equal_it)
equal.grid(row = 6 ,column = 4 ,sticky = W,padx = 1 ,rowspan = 2 )
equal.bind( "<Enter>" ,come)
equal.bind( "<Leave>" ,go)
btn0 = Button(root,text = 0 ,width = 22 ,height = 1 ,command = num0)
btn0.grid(row = 7 ,column = 0 ,sticky = W,padx = 1 ,columnspan = 2 )
btn0.bind( "<Enter>" ,come)
btn0.bind( "<Leave>" ,go)
dot = Button(root,text = "." ,width = 7 ,font = ( "Times" , "14" ),height = 1 ,command = dot_it)
dot.grid(row = 7 ,column = 2 ,sticky = W,padx = 1 )
dot.bind( "<Enter>" ,come)
dot.bind( "<Leave>" ,go)
add = Button(root,text = "加 +" ,width = 10 ,command = Addnum)
add.grid(row = 7 ,column = 3 ,sticky = W,padx = 1 )
add.bind( "<Enter>" ,come)
add.bind( "<Leave>" ,go)
def sci():
v = IntVar()
angle = Radiobutton(root,text = "角度" ,variable = v,value = 1 ,command = angle_radio)
angle.grid(row = 0 ,column = 6 )
radium = Radiobutton(root,text = "弧度" ,variable = v,value = 2 ,command = radium_radio )
radium.grid(row = 0 ,column = 7 )
sinaa = Button(root,text = "Sin(x)" ,width = 18 ,command = sin_x)
sinaa.grid(row = 1 ,column = 6 )
sinaa.bind( "<Enter>" ,come)
sinaa.bind( "<Leave>" ,go)
cosaa = Button(root,text = "COS(x)" ,width = 18 ,command = cos_x)
cosaa.grid(row = 1 ,column = 7 )
cosaa.bind( "<Enter>" ,come)
cosaa.bind( "<Leave>" ,go)
tanaa = Button(root,text = "tan(x)" ,width = 18 ,command = tan_x)
tanaa.grid(row = 1 ,column = 8 )
tanaa.bind( "<Enter>" ,come)
tanaa.bind( "<Leave>" ,go)
x_square = Button(root,text = "x的平方" ,width = 18 ,command = square_it)
x_square.grid(row = 2 ,column = 6 )
x_square.bind( "<Enter>" ,come)
x_square.bind( "<Leave>" ,go)
X_Ytimes = Button(root,text = "x的Y次方" ,width = 18 ,command = x_ypower)
X_Ytimes.grid(row = 2 ,column = 7 )
X_Ytimes.bind( "<Enter>" ,come)
X_Ytimes.bind( "<Leave>" ,go)
X_tri = Button(root,text = "x的三次方" ,width = 18 ,command = tri_power)
X_tri.grid(row = 2 ,column = 8 )
X_tri.bind( "<Enter>" ,come)
X_tri.bind( "<Leave>" ,go)
leftbra = Button(root,text = "左括号 ( " ,width = 18 ,command = Bracket_left)
leftbra.grid(row = 3 ,column = 6 )
leftbra.bind( "<Enter>" ,come)
leftbra.bind( "<Leave>" ,go)
rightbra = Button(root,text = "右括号 )" ,width = 18 ,command = Bracket_right)
rightbra.grid(row = 3 ,column = 7 )
rightbra.bind( "<Enter>" ,come)
rightbra.bind( "<Leave>" ,go)
natural_logs = Button(root,text = "自然对数 In(x)" ,width = 18 ,command = nature_log)
natural_logs.grid(row = 7 ,column = 6 )
natural_logs.bind( "<Enter>" ,come)
natural_logs.bind( "<Leave>" ,go)
square_root = Button(root,text = "x的平方根" ,width = 18 ,command = sqrt_num)
square_root.grid(row = 4 ,column = 6 )
square_root.bind( "<Enter>" ,come)
square_root.bind( "<Leave>" ,go)
X_Yroot = Button(root,text = "x的Y次方根" ,width = 18 ,command = x_ypower)
X_Yroot.grid(row = 4 ,column = 7 )
X_Yroot.bind( "<Enter>" ,come)
X_Yroot.bind( "<Leave>" ,go)
X_tri_root = Button(root,text = "x的三次方根" ,width = 18 ,command = tri_root)
X_tri_root.grid(row = 4 ,column = 8 )
X_tri_root.bind( "<Enter>" ,come)
X_tri_root.bind( "<Leave>" ,go)
log10aa = Button(root,text = "以10为底的对数Logx" ,width = 18 ,command = deci_log)
log10aa.grid(row = 5 ,column = 6 )
log10aa.bind( "<Enter>" ,come)
log10aa.bind( "<Leave>" ,go)
log2aa = Button(root,text = "以2为底的对数Logx" ,width = 18 ,command = bina_log)
log2aa.grid(row = 5 ,column = 8 )
log2aa.bind( "<Enter>" ,come)
log2aa.bind( "<Leave>" ,go)
pow10 = Button(root,text = "以x为底,y为真数的logx" ,width = 18 ,command = y_based_on_x_log)
pow10.grid(row = 5 ,column = 7 )
pow10.bind( "<Enter>" ,come)
pow10.bind( "<Leave>" ,go)
radio = Button(root,text = "圆周率 π" ,width = 18 ,command = circle_ratio)
radio.grid(row = 7 ,column = 7 )
radio.bind( "<Enter>" ,come)
radio.bind( "<Leave>" ,go)
natur_con = Button(root,text = "自然常数e" ,width = 18 ,command = natur_const)
natur_con.grid(row = 7 ,column = 8 )
natur_con.bind( "<Enter>" ,come)
natur_con.bind( "<Leave>" ,go)
antisin = Button(root,text = "反三角正弦sin(-1)x" ,width = 18 ,height = 1 ,command = anti_sin)
antisin.grid(row = 6 ,column = 6 )
antisin.bind( "<Enter>" ,come)
antisin.bind( "<Leave>" ,go)
anticos = Button(root,text = "反三角余弦cos(-1)x" ,width = 18 ,height = 1 ,command = anti_cos)
anticos.grid(row = 6 ,column = 7 )
anticos.bind( "<Enter>" ,come)
anticos.bind( "<Leave>" ,go)
antitan = Button(root,text = "反三角正切tan(-1)x" ,width = 18 ,height = 1 ,command = anti_tan)
antitan.grid(row = 6 ,column = 8 )
antitan.bind( "<Enter>" ,come)
antitan.bind( "<Leave>" ,go)
###################
if __name__ = = "__main__" :
################################菜单设计
standard_it = True
sci_it = False
static_it = False
code_it = False
memorylist = []
m_plus = False
m_minus = False
angle_is = False
radium_is = False
x = 0
list_power = []
list_log = []
xypower = False
xylog = False
text = Text(root,height = 1 ,font = ( "Times" , "20" ),width = 31 ,fg = "#%02x%02x%02x" % ( 46 , 150 , 67 ),bd = 0 )
text.grid(row = 0 ,column = 0 ,columnspan = 6 )
text_alert = Text(root,height = 1 ,width = 31 ,fg = "red" ,font = ( "Times" , "20" ),bd = 0 )
text_alert.grid(row = 1 ,column = 0 ,columnspan = 6 )
menubar = Menu(root)
mode_menu = Menu(menubar,tearoff = 0 )
v_mode = IntVar()
mode_menu.add_radiobutton(label = "标准型" ,variable = v_mode,value = 0 ,command = standard)
mode_menu.add_radiobutton(label = "科学型" ,variable = v_mode,value = 1 ,command = sci)
mode_menu.add_radiobutton(label = "统计型" ,variable = v_mode,value = 3 )
mode_menu.insert_separator( 7 )
v_his_math = IntVar()
mode_menu.add_radiobutton(label = "历史记录" ,variable = v_his_math,value = 0 )
mode_menu.add_radiobutton(label = "数字分组" ,variable = v_his_math,value = 1 )
menubar.add_cascade(label = "查看" ,menu = mode_menu)
mode_menu.insert_separator( 11 )
v_transform = IntVar()
mode_menu.add_radiobutton(label = "单位转换" ,variable = v_transform,value = 1 )
edit = Menu(menubar)
edit.add_command(label = "复制" )
edit.add_command(label = "黏贴" )
menubar.add_cascade(label = "编辑" ,menu = edit)
helpm = Menu(menubar)
helpm.add_command(label = "使用说明" )
helpm.add_command(label = "版本为1.0" )
menubar.add_cascade(label = "帮助" ,menu = helpm)
root.config(menu = menubar) #有这句菜单栏才能正常工作
#########################################窗体设计
standard()
sci()
root.mainloop()
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以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持服务器之家。