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
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 = "程序员型",variable =v_mode,value =2)
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()以上就是本文的全部内容,希望对大家学习python程序设计有所帮助。
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近日,一项新的研究发现,维生素 C 和 E 等抗氧化剂会激活一种机制,刺激癌症肿瘤中新血管的生长,帮助它们生长和扩散。
据媒体援引消息人士报道,苹果公司正在测试使用3D打印技术来生产其智能手表的钢质底盘。消息传出后,3D系统一度大涨超10%,不过截至周三收盘,该股涨幅回落至2%以内。
9月2日,坐拥千万粉丝的网红主播“秀才”账号被封禁,在社交媒体平台上引发热议。平台相关负责人表示,“秀才”账号违反平台相关规定,已封禁。据知情人士透露,秀才近期被举报存在违法行为,这可能是他被封禁的部分原因。据悉,“秀才”年龄39岁,是安徽省亳州市蒙城县人,抖音网红,粉丝数量超1200万。他曾被称为“中老年...
9月3日消息,亚马逊的一些股东,包括持有该公司股票的一家养老基金,日前对亚马逊、其创始人贝索斯和其董事会提起诉讼,指控他们在为 Project Kuiper 卫星星座项目购买发射服务时“违反了信义义务”。
据消息,为推广自家应用,苹果现推出了一个名为“Apps by Apple”的网站,展示了苹果为旗下产品(如 iPhone、iPad、Apple Watch、Mac 和 Apple TV)开发的各种应用程序。
特斯拉本周在美国大幅下调Model S和X售价,引发了该公司一些最坚定支持者的不满。知名特斯拉多头、未来基金(Future Fund)管理合伙人加里·布莱克发帖称,降价是一种“短期麻醉剂”,会让潜在客户等待进一步降价。
据外媒9月2日报道,荷兰半导体设备制造商阿斯麦称,尽管荷兰政府颁布的半导体设备出口管制新规9月正式生效,但该公司已获得在2023年底以前向中国运送受限制芯片制造机器的许可。
近日,根据美国证券交易委员会的文件显示,苹果卫星服务提供商 Globalstar 近期向马斯克旗下的 SpaceX 支付 6400 万美元(约 4.65 亿元人民币)。用于在 2023-2025 年期间,发射卫星,进一步扩展苹果 iPhone 系列的 SOS 卫星服务。
据报道,马斯克旗下社交平台𝕏(推特)日前调整了隐私政策,允许 𝕏 使用用户发布的信息来训练其人工智能(AI)模型。新的隐私政策将于 9 月 29 日生效。新政策规定,𝕏可能会使用所收集到的平台信息和公开可用的信息,来帮助训练 𝕏 的机器学习或人工智能模型。
9月2日,荣耀CEO赵明在采访中谈及华为手机回归时表示,替老同事们高兴,觉得手机行业,由于华为的回归,让竞争充满了更多的可能性和更多的魅力,对行业来说也是件好事。
《自然》30日发表的一篇论文报道了一个名为Swift的人工智能(AI)系统,该系统驾驶无人机的能力可在真实世界中一对一冠军赛里战胜人类对手。
近日,非营利组织纽约真菌学会(NYMS)发出警告,表示亚马逊为代表的电商平台上,充斥着各种AI生成的蘑菇觅食科普书籍,其中存在诸多错误。
社交媒体平台𝕏(原推特)新隐私政策提到:“在您同意的情况下,我们可能出于安全、安保和身份识别目的收集和使用您的生物识别信息。”
2023年德国柏林消费电子展上,各大企业都带来了最新的理念和产品,而高端化、本土化的中国产品正在不断吸引欧洲等国际市场的目光。
罗永浩日前在直播中吐槽苹果即将推出的 iPhone 新品,具体内容为:“以我对我‘子公司’的了解,我认为 iPhone 15 跟 iPhone 14 不会有什么区别的,除了序(列)号变了,这个‘不要脸’的东西,这个‘臭厨子’。
