|
Tamanho: 10848
Comentário:
|
Tamanho: 11424
Comentário:
|
| Deleções são marcadas assim. | Adições são marcadas assim. |
| Linha 43: | Linha 43: |
| #Cria os frames nescessarios para a disposição dos \ widgets no programa #Cria os frames nescessarios para a disposição dos \ widgets no programa |
"""Cria os frames nescessarios para a disposição dos widgets no programa""" """Cria os frames nescessarios para a disposição dos widgets no programa""" |
| Linha 59: | Linha 59: |
| self.visor=Entry(self.fexibir,width=23,bg="white",fg="blue",justify="right") | self.visor=Entry(self.fexibir,width=23,bg="white", \ fg="blue",justify="right") |
| Linha 61: | Linha 62: |
| # Frame geral: Escreve um titulo na primeira linha do programa self.titulo=Label(self.geral,text=" CALCULADORA PYTHON ",bg="gray",fg="black",font=('Helvetica','10','bold')) # Insere a cixa de Texto que seá utilizada para fazer a fita de impressão |
"""Frame geral: Escreve um titulo na primeira linha do programa""" self.titulo=Label(self.geral,text=" CALCULADORA \ PYTHON ",bg="gray",fg="black", font= ('Helvetica','10','bold')) """ Insere a cixa de Texto que seá utilizada para fazer a fita de impressão""" |
| Linha 70: | Linha 77: |
| self.fita=Text(self.ffita,width=23,height=13,bg="white",yscrollcommand=self.sb.set) | self.fita=Text(self.ffita,width=23,height=13,\ bg="white",yscrollcommand=self.sb.set) |
| Linha 76: | Linha 84: |
| ## WIDGETS NO FRAME ZERO ######################################################### |
## WIDGETS NO FRAME ZERO ########################### |
| Linha 80: | Linha 88: |
| self.c=Button(self.fzero,text="C",bg="white",width=4,command=self.zera) | self.c=Button(self.fzero,text="C",bg="white",\ width=4,command=self.zera) |
| Linha 82: | Linha 92: |
| self.space1=Label(self.fzero,bg="gray",text=" ") |
self.space1=Label(self.fzero,bg="gray",\ text=" ") |
| Linha 86: | Linha 96: |
| self.igual=Button(self.fzero,text="=",bg="white",width=4,command=lambda sin="": self.op(sin)) ################################################################################### ## WIDGETS NO FRAME UM ############################################################ self.sete=Button(self.fum,text="7",width=4,command=lambda n=7: self.write_visor(n)) self.oito=Button(self.fum,text="8",width=4,command=lambda n=8: self.write_visor(n)) self.nove=Button(self.fum,text="9",width=4,command=lambda n=9: self.write_visor(n)) self.div=Button(self.fum,text="/",fg="red",width=4, command=lambda sin='/': self.op(sin)) ################################################################################### ## WIDGETS NO FRAME DOIS ############################################################ self.quatro=Button(self.fdois,text="4",width=4,command=lambda n=4: self.write_visor(n)) self.cinco=Button(self.fdois,text="5",width=4,command=lambda n=5: self.write_visor(n)) self.seis=Button(self.fdois,text="6",width=4,command=lambda n=6: self.write_visor(n)) self.mult=Button(self.fdois,text="*",fg="red",width=4 ,command=lambda sin='*': self.op(sin)) |
self.igual=Button(self.fzero,text="=",bg="white",\ width=4,command=lambda sin="": \ self.op(sin)) ##################################################### ## WIDGETS NO FRAME UM ################## self.sete=Button(self.fum,text="7",width=4,\ command=lambda n=7: \ self.write_visor(n)) self.oito=Button(self.fum,text="8",width=4,\ command=lambda n=8: \ self.write_visor(n)) self.nove=Button(self.fum,text="9",width=4,\ command=lambda n=9: \ self.write_visor(n)) self.div=Button(self.fum,text="/",fg="red",\ width=4, command=lambda sin='/': \ self.op(sin)) ###################################################### ## WIDGETS NO FRAME DOIS ############################# self.quatro=Button(self.fdois,text="4",width=4,\ command=lambda n=4: \ self.write_visor(n)) self.cinco=Button(self.fdois,text="5",width=4,\ command=lambda n=5: \ self.write_visor(n)) self.seis=Button(self.fdois,text="6",width=4,\ command=lambda n=6: \ self.write_visor(n)) self.mult=Button(self.fdois,text="*",fg="red",\ width=4 ,command=lambda sin='*': \ self.op(sin)) |
1 #!/usr/bin/python
2 # -*- coding: cp1252 -*-
3
4 """
5 Autor: Vinicius Rodrigues da Cunha Perallis
6 Data: 19/04/2006
7 20/04/2006
8 Projeto: Calculadora Comercial
9
10 Finalidade: Calculadora que opera semelhante a calculadora
11 do windows, alem de conter uma caixa de
12 texto que imita uma fita de impressão
13
14 Interpretador: Python 2.4.1
15 Sistema Operacional: Linux, Windows
16
17 Email:perallis@rc.unesp.br
18
19
20 """
21
22
23 #Importa todas funcoes do modulo Tkinter
24 from Tkinter import *
25
26
27 #Classe Principal que executa o aplicativo Calculadora
28 class Calculadora:
29
30 def __init__(self,parent):
31 self.myapp=parent
32 self.myapp.title("Calculadora - Phy")
33 #Cria o frame principa
34 self.geral=Frame(self.myapp,bg="gray")
35 self.geral.pack()
36
37
38 """Cria os frames nescessarios para a disposição dos
39 widgets no programa"""
40
41 """Cria os frames nescessarios para a disposição dos
42 widgets no programa"""
43
44 self.fexibir=Frame(self.geral,bg="gray")
45 self.fzero=Frame(self.geral,bg="gray")
46 self.fum=Frame(self.geral,bg="gray")
47 self.fdois=Frame(self.geral,bg="gray")
48 self.ftreis=Frame(self.geral,bg="gray")
49 self.fquatro=Frame(self.geral,bg="gray")
50
51
52 #Caixa de texto, que servirá para mostrar os numeros
53
54 self.visor=Entry(self.fexibir,width=23,bg="white", \
55 fg="blue",justify="right")
56 self.visor.insert(INSERT,0)
57
58 """Frame geral: Escreve um titulo na primeira linha
59 do programa"""
60
61 self.titulo=Label(self.geral,text=" CALCULADORA \
62 PYTHON ",bg="gray",fg="black",
63 font= ('Helvetica','10','bold'))
64
65 """ Insere a cixa de Texto que seá utilizada para
66
67 fazer a fita de impressão"""
68 self.ffita=Frame(self.geral)
69 self.ffita.pack(side="right",padx=15)
70 self.sb=Scrollbar(self.ffita)
71
72 self.fita=Text(self.ffita,width=23,height=13,\
73 bg="white",yscrollcommand=self.sb.set)
74 self.sb["command"] = self.fita.yview
75 self.fita.pack(side="left",padx=0)
76 self.sb.pack(side="right",fill=Y)
77
78
79 ## WIDGETS NO FRAME ZERO ###########################
80
81 #Botao para reiniciar a calculadora
82
83 self.c=Button(self.fzero,text="C",bg="white",\
84 width=4,command=self.zera)
85
86 #Label para organizar o programa
87 self.space1=Label(self.fzero,bg="gray",\
88 text=" ")
89 #Botao igual
90
91 self.igual=Button(self.fzero,text="=",bg="white",\
92 width=4,command=lambda sin="": \
93 self.op(sin))
94
95 #####################################################
96
97
98 ## WIDGETS NO FRAME UM ##################
99 self.sete=Button(self.fum,text="7",width=4,\
100 command=lambda n=7: \
101 self.write_visor(n))
102 self.oito=Button(self.fum,text="8",width=4,\
103 command=lambda n=8: \
104 self.write_visor(n))
105 self.nove=Button(self.fum,text="9",width=4,\
106 command=lambda n=9: \
107 self.write_visor(n))
108 self.div=Button(self.fum,text="/",fg="red",\
109 width=4, command=lambda sin='/': \
110 self.op(sin))
111
112 ######################################################
113
114 ## WIDGETS NO FRAME DOIS #############################
115 self.quatro=Button(self.fdois,text="4",width=4,\
116 command=lambda n=4: \
117 self.write_visor(n))
118 self.cinco=Button(self.fdois,text="5",width=4,\
119 command=lambda n=5: \
120 self.write_visor(n))
121 self.seis=Button(self.fdois,text="6",width=4,\
122 command=lambda n=6: \
123 self.write_visor(n))
124 self.mult=Button(self.fdois,text="*",fg="red",\
125 width=4 ,command=lambda sin='*': \
126 self.op(sin))
127
128 ###################################################################################
129
130 ## WIDGETS NO FRAME TREIS
131 ##########################################################
132 self.um=Button(self.ftreis,text="1",width=4,command=lambda n=1:
133 self.write_visor(n) )
134 self.dois=Button(self.ftreis,text="2",width=4,command=lambda
135 n=2: self.write_visor(n))
136 self.tres=Button(self.ftreis,text="3",width=4,command=lambda
137 n=3: self.write_visor(n))
138 self.menos=Button(self.ftreis,text="-",fg="red",width=4,
139 command=lambda sin='-': self.op(sin) )
140
141 ###################################################################################
142
143 ## WIDGETS NO FRAME
144 QUATRO#########################################################
145 self.zero=Button(self.fquatro,text="0",width=4,command=lambda
146 n=0: self.write_visor(n))
147 self.virg=Button(self.fquatro,text=",",width=4,command=lambda
148 n='.': self.write_visor(n))
149 self.maismenos=Button(self.fquatro,fg="red",text="+/-",width=4,
150 command=lambda n=-1: self.write_visor(n))
151 self.mais=Button(self.fquatro,fg="red",text="+",width=4,
152 command=lambda sin='+': self.op(sin))
153
154 ###################################################################################
155
156 #Frame fgeral
157 self.titulo.pack()
158
159 #Frame fexibir
160 self.fexibir.pack()
161
162 self.visor.pack(ipadx="3")
163
164 #Frame fzero
165 self.fzero.pack()
166
167 self.c.pack(side=LEFT,fill=X,pady="5",padx="2")
168 self.igual.pack(side=LEFT,fill=X,pady="5",padx="2")
169 self.space1.pack()
170
171 #Frame fum
172 self.fum.pack()
173
174 self.sete.pack(side="left",padx=2,pady=2)
175 self.oito.pack(side="left",padx=2,pady=2)
176 self.nove.pack(side="left",padx=2,pady=2)
177 self.div.pack(side="left",padx=2,pady=2)
178
179 #Frame fdois
180 self.fdois.pack()
181 self.seis.pack(side="left",padx=2,pady=2)
182 self.cinco.pack(side="left",padx=2,pady=2)
183 self.quatro.pack(side="left",padx=2,pady=2)
184 self.mult.pack(side="left",padx=2,pady=2)
185
186 #Frame ftreis
187 self.ftreis.pack()
188 self.tres.pack(side="left",padx=2,pady=2)
189 self.dois.pack(side="left",padx=2,pady=2)
190 self.um.pack(side="left",padx=2,pady=2)
191 self.menos.pack(side="left",padx=2,pady=2)
192
193 #Frame fquatro
194 self.fquatro.pack()
195 self.maismenos.pack(side="left",padx=2,pady=2)
196 self.zero.pack(side="left",padx=2,pady=2)
197 self.virg.pack(side="left",padx=2,pady=2)
198 self.mais.pack(side="left",padx=2,pady=2)
199
200 # Variais da classe
201 self.z=0
202 self.w=1
203 self.atual=0
204 self.i=0
205 self.ty=0
206 self.num=0
207 self.prim=0
208 self.h=0
209 self.sa=0
210
211
212
213
214 ###------------------------------Função para realizar as operações
215 aritiméticas --------------------------###
216
217 def op(self,sin):
218 if (self.w==0):
219 self.num=float(self.visor.get())
220 print self.num
221 self.sinal=sin
222 self.w=1
223 self.z=1
224 self.i=0
225 self.ty=0
226 self.divi=0
227 if self.prim==0:
228 self.ty=1
229
230 else :
231 if self.ty==0:
232 self.atual=float(self.visor.get())
233
234 if self.sa==1 and self.ty==1:
235 self.num=float(self.visor.get())
236 self.sa=0
237
238 if self.sinal=='+':
239 self.num=self.num + self.atual
240 elif self.sinal=='-':
241 self.num=self.num - self.atual
242 elif self.sinal=='/' and self.ty!=1 and self.atual!=0:
243 self.num=self.num / self.atual
244 elif self.sinal=='/' and self.atual==0 and self.ty!=1:
245 self.visor.delete(0,END)
246 self.visor.insert(INSERT,"Imposivel dividir")
247 self.divi=1
248 self.prim=1
249 elif self.sinal=='*' and self.ty!=1 and self.prim==1:
250 self.num=self.num * self.atual
251
252 if self.divi==0:
253 self.visor.delete(0,END)
254 self.visor.insert(END,self.num)
255 self.prim=1
256 if self.divi==0 and self.ty==0:
257 self.fita.insert(INSERT,"\n"+self.sinal)
258 self.fita.insert(INSERT,"\n"+str(self.atual))
259 self.fita.insert(INSERT,"\n"+"=")
260 self.fita.insert(INSERT,"\n"+str(self.num))
261
262
263 self.atual=0
264 self.ty=1
265 self.i=0
266 self.w=1
267 self.z=1
268 self.div=0
269 self.sinal=sin
270 ###---------------------------------------- Fim da funçõa
271 aritmética op --------------------------------------###
272
273
274
275
276 ###-------------------------------- Função para escrever os numeros
277 no visor ---------------------------------###
278 def write_visor(self,n):
279 if (self.z==1) and n!=-1:
280 if self.i==0:
281 self.visor.delete(0,END)
282
283 self.visor.insert(INSERT,n)
284 self.w=1
285 self.z=1
286 self.i=1
287 self.ty=0
288 self.prim=1
289
290
291
292 elif self.z==0 and n!=-1:
293 if self.i==0:
294 self.visor.delete(0,END)
295 self.visor.insert(INSERT,n)
296 self.fita.insert(INSERT,n)
297 self.w=0
298 self.i=1
299 self.ty=0
300 if n==-1:
301 self.la=float(self.visor.get()) * (-1)
302 self.visor.delete(0,END)
303 self.visor.insert(END,self.la)
304 self.fita.insert(INSERT,"\n"+"*(-1)")
305 self.fita.insert(INSERT,"\n"+"=")
306 self.fita.insert(INSERT,"\n"+str(self.la))
307 self.sa=1
308
309 ###---------------------------------------- Fim da funçõa
310 write_visor --------------------------------------###
311
312
313
314 ###---------------------------------- Função para reiniciar a calculadora ----------------------------------###
315 def zera(self):
316 self.num=0
317 self.z=0
318 self.w=1
319 self.atual=0
320 self.i=0
321 self.ty=0
322 self.prim=0
323 self.visor.delete(0,END)
324 self.visor.insert(INSERT,0)
325 self.fita.delete('1.0','90.0')
326 ###------------------------------------------- Fim da função
327 zera-------------------------------------------###
328
329
330
331
332 # root Intacia-se pela classe Tk() e inicia a aplicação
333 root=Tk()
334 aplicativo=Calculadora(root)
335 root.mainloop()
