class Simuladorx(QtGui.QDockWidget): REG_CP = 0 REG_A = 1 REG_X = 2 REG_L = 3 REG_SW = 4 REG_B = 5 REG_S = 6 REG_T = 7 REG_F = 8 def __init__(self,parent=None): QtGui.QWidget.__init__(self) self.window = Ui_DockWidget() self.window.setupUi(self) self.add_registers() self.cargador = None self.hexa = Hexadecimal() self.convert = Convert() self.register = Register("A") self.init_registers() self.end_program = "0H" self.cc_val = "=" self.window.btnSimular.clicked.connect(self.simular) self.operations_3 = {"18":"ADD","00":"LDA","40":"AND","28":"COMP","24":"DIV","3C":"J","30":"JEQ","34":"JGT","38":"JLT", "48":"JSUB","50":"LDCH","08":"LDL","04":"LDX","20":"MUL","4C":"RSUB","0C":"STA","54":"STCH","14":"STL", "E8":"STSW","10":"STX","1C":"SUB","2C":"TIX","58":"ADDF","88":"COMPF","64":"DIVF","68":"LDB","70":"LDF", "6C":"LDS","74":"LDT","D0":"LPS","60":"MULF","EC":"SSK","78":"STB","80":"STF","D4":"STI","7C":"STS","E8":"STSW", "84":"STT","5C":"SUBF","E0":"TD","DC":"WD","44":"OR"} self.operations_1 = {"C4":"FIX","C0":"FLOAT","F4":"HIO","C8":"NORM","F0":"SIO","F8":"TIO"} self.operations_2 = {"90":"ADDR","B4":"CLEAR","A0":"COMPR","9C":"DIVR","98":"MULR","AC":"RMO","A4":"SHIFTL","A8":"SHIFTR", "94":"SUBR","B0":"SVC","B8":"TIXR"} self.operations = {"18":self.add,"00":self.lda,"40":self.and_op,"28":self.comp,"24":self.div,"3C":self.j_op, "30":self.jeq,"34":self.jgt,"38":self.jlt,"48":self.jsub,"50":self.ldch, "08":self.ldl,"04":self.ldx,"20":self.mul,"4C":self.rsub,"0C":self.sta,"54":self.stch,"14":self.stl, "E8":self.stsw,"10":self.stx,"1C":self.sub,"2C":self.tix,"58":self.float_operations, "88":self.float_operations, "64":self.float_operations,"68":self.ldb,"70":self.float_operations,"6C":self.lds,"74":self.ldt, "D0":self.system_operations,"60":self.float_operations,"EC":self.system_operations,"78":self.stb, "80":self.float_operations,"D4":self.system_operations,"7C":self.sts,"E8":self.system_operations, "84":self.stt,"5C":self.float_operations,"E0":self.system_operations,"DC":self.system_operations, "C4":self.float_operations, "C0":self.float_operations,"F4":self.system_operations,"C8":self.float_operations, "F0":self.system_operations,"44":self.or_op, "F8":self.system_operations,"90":self.addr,"B4":self.clear,"A0":self.compr, "9C":self.divr,"98":self.mulr,"AC":self.rmo,"A4":"SHIFTL", "A8":"SHIFTR","94":self.subr,"B0":"SVC","B8":self.tixr} self.registers = {"0":[self.REG_A,"A"],"1":[self.REG_X,"X"],"2":[self.REG_L,"L"],"8":[self.REG_CP,"CP"],"9":[self.REG_SW,"SW"],"3":[self.REG_B,"B"], "4":[self.REG_S,"S"],"5":[self.REG_T,"T"],"6":[self.REG_F,"F"]} self.operations_m = ["J","JLT","JEQ","JGT","JSUB","STA","STB","STCH","STL","STS","STSW","STT","STX","LDCH"] def simular(self): num_actions = self.get_count_next_actions() print "num actions",num_actions if num_actions == -1: self.window.textEdit_Actions.setText("Numero de simulaciones no Validas") else: self.make_n_simulations(num_actions) def make_n_simulations(self,number): it = 0 while it < number: cp = self.get_register(self.REG_CP) if self.hexa.minus_than(cp,self.end_program): op = self.get_operation() type_op = op[2] inst = op[1] m = self.get_m(type_op,cp,inst) if m == "Error": self.window.textEdit_Actions.setText("El programa se termino debido a un error de operacion") else: fun = self.operations[op[0]] fun(m) self.show_next_instr() else: self.window.textEdit_Actions.setText("El programa se termino") it += 1 def get_m(self,type_op,cp,inst): if type_op == "Error": return type_op if type_op == "1": self.increment_cp(1) return "0" if type_op == "2": cp_n = self.hexa.plus(cp,"1H") self.increment_cp(2) return self.get_data_form_mem(cp_n,1) if inst in self.operations_m: print "\n\n"+inst+"\n\n" return self.get_m_type3_m() return self.get_m_type3() def get_count_next_actions(self): count_actions = str(self.window.textEdit_Num.toPlainText()) if count_actions == "": count_actions = 1 elif not count_actions.isdigit(): return -1 return int(count_actions) def system_operations(self,val): self.window.textEdit_Actions.setText("No tiene los permisos \n para ejecutar esta instruccion") def float_operations(self,val): self.window.textEdit_Actions.setText("Las instrucciones flotantes \n no se pueden ejecutar") def add_registers(self): self.window.tableWidget_2.setRowCount(9) item = QtGui.QTableWidgetItem() item.setText("B") self.window.tableWidget_2.setVerticalHeaderItem(5, item) item = QtGui.QTableWidgetItem() item.setText("S") self.window.tableWidget_2.setVerticalHeaderItem(6, item) item = QtGui.QTableWidgetItem() item.setText("T") self.window.tableWidget_2.setVerticalHeaderItem(7, item) item = QtGui.QTableWidgetItem() item.setText("F") self.window.tableWidget_2.setVerticalHeaderItem(8, item) def init_registers(self): it = 0 while it < 9: item_text = QtGui.QTableWidgetItem("FFFFFFFH") self.window.tableWidget_2.setItem(it,0,item_text) it += 1 def set_register(self,reg_num,val): val_hex = self.register.adjust_bytes(val,6,False) val_hex = self.hexa.change_hexadecimal(val_hex) item_text = QtGui.QTableWidgetItem(val_hex) self.window.tableWidget_2.setItem(reg_num,0,item_text) def get_register(self,reg_num): item = self.window.tableWidget_2.item(reg_num,0) return str(item.text()) def carga(self,list_obj,dirprog): self.cargador = Cargadorx(self.window) self.cargador.load_file_name(list_obj,dirprog) cp = self.cargador.direj self.set_register(self.REG_CP,cp) self.show_next_instr() self.end_program = self.cargador.dirsc if self.cargador.error_duplicado: QtGui.QMessageBox.about(self,"Error","Error simbolo duplicado") elif self.cargador.error_indefinido: QtGui.QMessageBox.about(self,"Error","Error simbolo indefinido") def increment_cp(self,num): num_hexa = self.convert.decimal_to_hexadecimal(num) cp = self.get_register(self.REG_CP) res = self.hexa.plus(num_hexa,cp) self.set_register(self.REG_CP,res) def show_next_instr(self): op = self.get_operation() self.window.label_sig.setText(op[1]) def get_operation(self): cp = self.get_register(self.REG_CP) value = self.get_data_form_mem(cp,1) val = value[0] val2 = value[1] val_d = int(self.convert.to_decimal(val2+"H")) val_d = val_d & 12 value = val + self.convert.decimal_to_hexadecimal(str(val_d))[:-1] tip = "Error" op = self.operations_1.get(value,"Error") if not op == "Error": tip = "1" else: op = self.operations_2.get(value,"Error") if not op == "Error": tip = "2" else: op = self.operations_3.get(value,"Error") if not op == "Error": tip = "3" return [value,op,tip] ##regresa los datos de una localidad y las licalidades #siguientes # @param localidad donde se obtendra el dato # @param num_loc cuantas localidades siguientes accedera def get_data_form_mem(self,location,num_loc): loc = self.register.filter_number(location) row = self.get_row_index(loc) col = self.get_column_index(loc) data = "" it = col count = 0 while count < num_loc: item = self.window.tableWidget.item(row,it) data += str(item.text()) it = (it+1)%17 if it == 0: it = 1 row+=1 count += 1 return data def get_row_index(self,value): index = str(value[0:-1])+"0" it = 0 index = self.register.adjust_bytes(index,6,False) num_rows = self.window.tableWidget.rowCount() while it < num_rows: val = self.window.tableWidget.item(it,0) if str(val.text()) == index: return it it += 1 return 0 def get_column_index(self,value): index = str(value[-1])+"H" index = self.convert.to_decimal(index) return index+1 def get_m_type3(self): cp = self.get_register(self.REG_CP) data1 = self.get_data_form_mem(cp,1) type_d = self.get_operation_type(data1) next_loc = self.hexa.plus(cp,"1H") data = self.get_data_form_mem(next_loc,1) print data1,type_d,next_loc,data msb = data[0] msb_d = int(self.convert.to_decimal(msb+"H")) tam = 3 if (msb_d & 1) == 1: tam = 4 next_loc = self.hexa.plus(next_loc,"1H") m = data[1] + self.get_data_form_mem(next_loc,tam-2) print m,tam,next_loc cp = self.get_register(self.REG_CP) cp = self.hexa.plus(cp,str(tam)) self.set_register(self.REG_CP,cp) if type_d == "simple_s": m = str(msb_d & 7) + m type_d = "simple" elif (msb_d & 6) == 0: m = m else: if (msb_d & 4) == 4: b = self.get_register(self.REG_B) m = self.hexa.change_hexadecimal(m) print "rel base",b,m m = self.hexa.suma(m,b) if (msb_d & 2) == 2: cp = self.get_register(self.REG_CP) m = self.hexa.change_hexadecimal(m) print "rel cp",cp,m m = self.hexa.suma(m,cp) if (msb_d & 8) == 8: x = self.get_register(self.REG_X) m = self.hexa.change_hexadecimal(m) print ", X",x,m m = self.hexa.suma(m,x) print "mem",m if not type_d == "inmediato": m = self.register.adjust_bytes(m,6,False) m = self.get_data_form_mem(m,3) if not type_d == "simple": m = self.register.adjust_bytes(m,6,False) m = self.get_data_form_mem(m,3) print "return",m return m def get_m_type3_m(self): cp = self.get_register(self.REG_CP) data1 = self.get_data_form_mem(cp,1) type_d = self.get_operation_type(data1) next_loc = self.hexa.plus(cp,"1H") data = self.get_data_form_mem(next_loc,1) print data1,type_d,next_loc,data msb = data[0] msb_d = int(self.convert.to_decimal(msb+"H")) tam = 3 if (msb_d & 1) == 1: tam = 4 next_loc = self.hexa.plus(next_loc,"1H") m = data[1] + self.get_data_form_mem(next_loc,tam-2) print m,tam,next_loc cp = self.get_register(self.REG_CP) cp = self.hexa.plus(cp,str(tam)) self.set_register(self.REG_CP,cp) if type_d == "simple_s": m = str(msb_d & 7) + m type_d = "simple" elif (msb_d & 6) == 0: m = m else: if (msb_d & 4) == 4: b = self.get_register(self.REG_B) m = self.hexa.change_hexadecimal(m) print "rel base",b,m m = self.hexa.suma(m,b) if (msb_d & 2) == 2: cp = self.get_register(self.REG_CP) m = self.hexa.change_hexadecimal(m) print "rel cp",cp,m m = self.hexa.suma(m,cp) if (msb_d & 8) == 8: x = self.get_register(self.REG_X) m = self.hexa.change_hexadecimal(m) print ", X",x,m m = self.hexa.suma(m,x) print "mem",m # if not type_d == "inmediato": # m = self.register.adjust_bytes(m,6,False) # m = self.get_data_form_mem(m,3) # if not type_d == "simple": # m = self.register.adjust_bytes(m,6,False) # m = self.get_data_form_mem(m,3) # print "return",m return m def get_operation_type(self,data): d = data[1] d_d = int(self.convert.to_decimal(d+"H")) val = d_d & 3 if val == 3: return "simple" elif val == 2: return "indirecto" elif val == 1: return "inmediato" return "simple_s" def add(self,m): string = "ADD\nA <- (A) + (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.plus(a,m) string += "\n(A) = "+a+"\n(m..m+2) = "+m+"\n(A) = "+res self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def addr(self,m): string ="ADDR\nr2 <- (r1) + (r2)"+"\n" r1 = self.registers[m[0]] r2 = self.registers[m[1]] string += "(r1) = "+r1[1]+"\n (r2) = "+r2[1]+"\n" dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) res = self.hexa.plus(dat1,dat2) string += "("+r2[1]+")<-"+res self.set_register(r2[0],res) self.window.textEdit_Actions.setText(string) def and_op(self,m): string = "AND\nA <- (A) & (m..m+2)\n" a = self.get_register(self.REG_A) string += "(A) : " + a +"\n" +"(m..m+2) : "+m res = self.hexa.and_op(a,m) self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def clear(self,m): r = self.registers[m[0]] string = "CLEAR\nr1 <- 0\nr1:"+r[1] self.set_register(r[0],"0H") self.window.textEdit_Actions.setText(string) def comp(self,m): string = "COMP\nCC = (A) : (m..m+2)" a = self.get_register(self.REG_A) string += "\n (A) = "+a+"\n (m..m+2) = "+m self.cc_val = self.hexa.cmp_op(a,m) string += "\nCC ="+self.cc_val self.window.textEdit_Actions.setText(string) def compr(self,m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "COMPR\nCC = r1 : r2\n"+"r1 = "+r1[1]+"\nr2 = "+r2[1] self.cc_val = self.hexa.cmp_op(dat1,dat2) string += "\n CC = "+self.cc_val self.window.textEdit_Actions.setText(string) def div(self,m): string = "DIV\nA <- (A) / (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.div(a,m) string += "\n(A) = "+a+"\n(m..m+2) = "+m+"\n(A) = "+res self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def divr(self,m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "DIVR\nr2 <- (r2) / (r1)\nr1 = "+r1[1] +"\nr2 = "+r2[1] res = self.hexa.div(dat2,dat1) string += "r2 = "+res self.set_register(r2[0],res) self.window.textEdit_Actions.setText(string) def j_op(self,m): string = "J: \n CP <- m\nm = "+m self.set_register(self.REG_CP,m) self.window.textEdit_Actions.setText(string) def jeq(self,m): string = "JEQ: \nsi CC == '=':\n\tCP <- m\n" string += "CC = '"+self.cc_val+"'" if self.cc_val == "=": self.set_register(self.REG_CP,m) string += "\nCP <- "+m self.window.textEdit_Actions.setText(string) def jgt(self,m): string = "JGT: \nsi CC == '>':\n\tCP <- m\n" string += "CC = '"+self.cc_val+"'" if self.cc_val == ">": self.set_register(self.REG_CP,m) string += "\nCP <- "+m self.window.textEdit_Actions.setText(string) def jlt(self,m): string = "JLT: \nsi CC == '<':\n\tCP <- m\n" string += "CC = '"+self.cc_val+"'" if self.cc_val == "<": self.set_register(self.REG_CP,m) string += "\nCP <- "+m self.window.textEdit_Actions.setText(string) def jsub(self,m): string = "JSUB:\n L <- (CP)\nCP <- m" cp = self.get_register(self.REG_CP) string += "\n(CP) = "+cp+"\nm = "+m self.set_register(self.REG_L,cp) self.set_register(self.REG_CP,m) self.window.textEdit_Actions.setText(string) def lda(self,m): string = "LDA\nA <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_A,m) self.window.textEdit_Actions.setText(string) def ldb(self,m): string = "LDB\nB <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_B,m) self.window.textEdit_Actions.setText(string) def ldch(self,m): string = "LDCH\nA[+der] <- (m)" a = self.get_register(self.REG_A) m = self.register.adjust_bytes(m,6,False) m = self.get_data_form_mem(m,1) string += "\n(A) = "+a+"\n(m) = "+m a = self.register.filter_number(a) a = a[0:-2] + m self.set_register(self.REG_A,a) self.window.textEdit_Actions.setText(string) def ldl(self,m): string = "LDL\nL <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_L,m) self.window.textEdit_Actions.setText(string) def lds(self,m): string = "LDS\nS <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_S,m) self.window.textEdit_Actions.setText(string) def ldt(self,m): string = "LDT\nT <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_T,m) self.window.textEdit_Actions.setText(string) def ldx(self,m): string = "LDX\nX <- (m..m+2)\n(m..m+2) = "+m self.set_register(self.REG_X,m) self.window.textEdit_Actions.setText(string) def mul(self,m): a = self.get_register(self.REG_A) string = "MUL\nA <- (A) * (m..m+2)\n(A) = "+a+"\n(m..m+2)="+m res = self.hexa.mul(a,m) string += "\n (A) <- "+res self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def mulr(self,m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "MULR\nr2 <- (r2) * (r1)\nr1 = "+r1[1] +"\nr2 = "+r2[1] res = self.hexa.mul(dat2,dat1) string += "r2 = "+res self.set_register(r2[0],res) self.window.textEdit_Actions.setText(string) def or_op(self,m): string = "OR\nA <- (A) | (m..m+2)\n" a = self.get_register(self.REG_A) string += "(A) : " + a +"\n" +"(m..m+2) : "+m res = self.hexa.or_op(a,m) self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def rmo(self,m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) string = "RMO\nr2 <- (r1)\n r1 = "+r1[1]+"\nr2 ="+r2[1] string += "\nr2 <- " + dat1 self.set_register(r2[0],dat1) self.window.textEdit_Actions.setText(string) def rsub(self,m): l = self.get_register(self.REG_L) string = "RSUB\nCP <- (L)\n(L) = "+l string += "CP <-"+l self.set_register(self.REG_CP,l) self.window.textEdit_Actions.setText(string) def sta(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_A) string = "STA\n m..m+2 <- (A)\nm..m+2 = "+m+"\n(A) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def sta(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_A) string = "STA\n m..m+2 <- (A)\nm..m+2 = "+m+"\n(A) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stb(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_B) string = "STB\n m..m+2 <- (B)\nm..m+2 = "+m+"\n(B) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stch(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_A) reg = self.register.filter_number(reg)[-2:] string = "STCH\n m <- (A)[+der]\nm..m+2 = "+m+"\n(A)[+der] = "+reg ##S rm = self.hexa.plus(m,"2H") m = self.register.adjust_bytes(m,6,False) print "stsh",reg,m self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stl(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_L) string = "STL\n m..m+2 <- (L)\nm..m+2 = "+m+"\n(L) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def sts(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_S) string = "STS\n m..m+2 <- (S)\nm..m+2 = "+m+"\n(S) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stsw(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_SW) string = "STSW\n m..m+2 <- (SW)\nm..m+2 = "+m+"\n(SW) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stt(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_T) string = "STT\n m..m+2 <- (T)\nm..m+2 = "+m+"\n(T) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def stx(self,m): m = self.register.adjust_bytes(m,6,False) reg = self.get_register(self.REG_X) string = "STX\n m..m+2 <- (X)\nm..m+2 = "+m+"\n(X) = "+reg reg = self.register.filter_number(reg) self.modf_reg(reg,m) self.window.textEdit_Actions.setText(string) def modf_reg(self,reg,m): row = self.get_row_index(m) col = self.get_column_index(m) it = col count = 0 while count < len(reg): item = self.window.tableWidget.item(row,it) text = reg[count:count+2] count += 2 item.setText(text) it = (it+1)%17 if it == 0: it = 1 row+=1 def sub(self,m): string = "ADD\nA <- (A) - (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.subs(a,m) string += "\n(A) = "+a+"\n(m..m+2) = "+m+"\n(A) = "+res self.set_register(self.REG_A,res) self.window.textEdit_Actions.setText(string) def subr(self,m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "SUBR\nr2 <- (r2) - (r1)\nr1 = "+r1[1] +"\nr2 = "+r2[1] res = self.hexa.subs(dat2,dat1) string += "r2 = "+res self.set_register(r2[0],res) self.window.textEdit_Actions.setText(string) def tix(self,m): x = self.get_register(self.REG_X) string ="TIX\n(X) <- (X) + 1\n(X) : (m..m+2)\n(X)="+x x = self.hexa.plus(x,"1H") self.set_register(self.REG_X,x) string +="\n(X)<- (X) + 1\n(X) <- "+x+"\n(m..m+2)="+m self.cc_val = self.hexa.cmp_op(x,m) string += "\nCC = "+self.cc_val self.window.textEdit_Actions.setText(string) def tixr(self,m): r1 = self.registers[m[0]] dat1 = self.get_register(r1[0]) string = "TIX\n X <- (X) + 1\n(X) : (r1)\nr1 = "+r1[1] x = self.get_register(self.REG_X) x = self.hexa.plus(x,"1H") self.set_register(self.REG_X,x) self.cc_val = self.hexa.cmp_op(x,dat1) string += "CC = "+self.cc_val self.window.textEdit_Actions.setText(string)
class Simuladorx(QtGui.QDockWidget): REG_CP = 0 REG_A = 1 REG_X = 2 REG_L = 3 REG_SW = 4 REG_B = 5 REG_S = 6 REG_T = 7 REG_F = 8 def __init__(self, parent=None): QtGui.QWidget.__init__(self) self.window = Ui_DockWidget() self.window.setupUi(self) self.add_registers() self.cargador = None self.hexa = Hexadecimal() self.convert = Convert() self.register = Register("A") self.init_registers() self.end_program = "0H" self.cc_val = "=" self.window.btnSimular.clicked.connect(self.simular) self.operations_3 = { "18": "ADD", "00": "LDA", "40": "AND", "28": "COMP", "24": "DIV", "3C": "J", "30": "JEQ", "34": "JGT", "38": "JLT", "48": "JSUB", "50": "LDCH", "08": "LDL", "04": "LDX", "20": "MUL", "4C": "RSUB", "0C": "STA", "54": "STCH", "14": "STL", "E8": "STSW", "10": "STX", "1C": "SUB", "2C": "TIX", "58": "ADDF", "88": "COMPF", "64": "DIVF", "68": "LDB", "70": "LDF", "6C": "LDS", "74": "LDT", "D0": "LPS", "60": "MULF", "EC": "SSK", "78": "STB", "80": "STF", "D4": "STI", "7C": "STS", "E8": "STSW", "84": "STT", "5C": "SUBF", "E0": "TD", "DC": "WD", "44": "OR" } self.operations_1 = { "C4": "FIX", "C0": "FLOAT", "F4": "HIO", "C8": "NORM", "F0": "SIO", "F8": "TIO" } self.operations_2 = { "90": "ADDR", "B4": "CLEAR", "A0": "COMPR", "9C": "DIVR", "98": "MULR", "AC": "RMO", "A4": "SHIFTL", "A8": "SHIFTR", "94": "SUBR", "B0": "SVC", "B8": "TIXR" } self.operations = { "18": self.add, "00": self.lda, "40": self.and_op, "28": self.comp, "24": self.div, "3C": self.j_op, "30": self.jeq, "34": self.jgt, "38": self.jlt, "48": self.jsub, "50": self.ldch, "08": self.ldl, "04": self.ldx, "20": self.mul, "4C": self.rsub, "0C": self.sta, "54": self.stch, "14": self.stl, "E8": self.stsw, "10": self.stx, "1C": self.sub, "2C": self.tix, "58": self.float_operations, "88": self.float_operations, "64": self.float_operations, "68": self.ldb, "70": self.float_operations, "6C": self.lds, "74": self.ldt, "D0": self.system_operations, "60": self.float_operations, "EC": self.system_operations, "78": self.stb, "80": self.float_operations, "D4": self.system_operations, "7C": self.sts, "E8": self.system_operations, "84": self.stt, "5C": self.float_operations, "E0": self.system_operations, "DC": self.system_operations, "C4": self.float_operations, "C0": self.float_operations, "F4": self.system_operations, "C8": self.float_operations, "F0": self.system_operations, "44": self.or_op, "F8": self.system_operations, "90": self.addr, "B4": self.clear, "A0": self.compr, "9C": self.divr, "98": self.mulr, "AC": self.rmo, "A4": "SHIFTL", "A8": "SHIFTR", "94": self.subr, "B0": "SVC", "B8": self.tixr } self.registers = { "0": [self.REG_A, "A"], "1": [self.REG_X, "X"], "2": [self.REG_L, "L"], "8": [self.REG_CP, "CP"], "9": [self.REG_SW, "SW"], "3": [self.REG_B, "B"], "4": [self.REG_S, "S"], "5": [self.REG_T, "T"], "6": [self.REG_F, "F"] } self.operations_m = [ "J", "JLT", "JEQ", "JGT", "JSUB", "STA", "STB", "STCH", "STL", "STS", "STSW", "STT", "STX", "LDCH" ] def simular(self): num_actions = self.get_count_next_actions() print "num actions", num_actions if num_actions == -1: self.window.textEdit_Actions.setText( "Numero de simulaciones no Validas") else: self.make_n_simulations(num_actions) def make_n_simulations(self, number): it = 0 while it < number: cp = self.get_register(self.REG_CP) if self.hexa.minus_than(cp, self.end_program): op = self.get_operation() type_op = op[2] inst = op[1] m = self.get_m(type_op, cp, inst) if m == "Error": self.window.textEdit_Actions.setText( "El programa se termino debido a un error de operacion" ) else: fun = self.operations[op[0]] fun(m) self.show_next_instr() else: self.window.textEdit_Actions.setText("El programa se termino") it += 1 def get_m(self, type_op, cp, inst): if type_op == "Error": return type_op if type_op == "1": self.increment_cp(1) return "0" if type_op == "2": cp_n = self.hexa.plus(cp, "1H") self.increment_cp(2) return self.get_data_form_mem(cp_n, 1) if inst in self.operations_m: print "\n\n" + inst + "\n\n" return self.get_m_type3_m() return self.get_m_type3() def get_count_next_actions(self): count_actions = str(self.window.textEdit_Num.toPlainText()) if count_actions == "": count_actions = 1 elif not count_actions.isdigit(): return -1 return int(count_actions) def system_operations(self, val): self.window.textEdit_Actions.setText( "No tiene los permisos \n para ejecutar esta instruccion") def float_operations(self, val): self.window.textEdit_Actions.setText( "Las instrucciones flotantes \n no se pueden ejecutar") def add_registers(self): self.window.tableWidget_2.setRowCount(9) item = QtGui.QTableWidgetItem() item.setText("B") self.window.tableWidget_2.setVerticalHeaderItem(5, item) item = QtGui.QTableWidgetItem() item.setText("S") self.window.tableWidget_2.setVerticalHeaderItem(6, item) item = QtGui.QTableWidgetItem() item.setText("T") self.window.tableWidget_2.setVerticalHeaderItem(7, item) item = QtGui.QTableWidgetItem() item.setText("F") self.window.tableWidget_2.setVerticalHeaderItem(8, item) def init_registers(self): it = 0 while it < 9: item_text = QtGui.QTableWidgetItem("FFFFFFFH") self.window.tableWidget_2.setItem(it, 0, item_text) it += 1 def set_register(self, reg_num, val): val_hex = self.register.adjust_bytes(val, 6, False) val_hex = self.hexa.change_hexadecimal(val_hex) item_text = QtGui.QTableWidgetItem(val_hex) self.window.tableWidget_2.setItem(reg_num, 0, item_text) def get_register(self, reg_num): item = self.window.tableWidget_2.item(reg_num, 0) return str(item.text()) def carga(self, list_obj, dirprog): self.cargador = Cargadorx(self.window) self.cargador.load_file_name(list_obj, dirprog) cp = self.cargador.direj self.set_register(self.REG_CP, cp) self.show_next_instr() self.end_program = self.cargador.dirsc if self.cargador.error_duplicado: QtGui.QMessageBox.about(self, "Error", "Error simbolo duplicado") elif self.cargador.error_indefinido: QtGui.QMessageBox.about(self, "Error", "Error simbolo indefinido") def increment_cp(self, num): num_hexa = self.convert.decimal_to_hexadecimal(num) cp = self.get_register(self.REG_CP) res = self.hexa.plus(num_hexa, cp) self.set_register(self.REG_CP, res) def show_next_instr(self): op = self.get_operation() self.window.label_sig.setText(op[1]) def get_operation(self): cp = self.get_register(self.REG_CP) value = self.get_data_form_mem(cp, 1) val = value[0] val2 = value[1] val_d = int(self.convert.to_decimal(val2 + "H")) val_d = val_d & 12 value = val + self.convert.decimal_to_hexadecimal(str(val_d))[:-1] tip = "Error" op = self.operations_1.get(value, "Error") if not op == "Error": tip = "1" else: op = self.operations_2.get(value, "Error") if not op == "Error": tip = "2" else: op = self.operations_3.get(value, "Error") if not op == "Error": tip = "3" return [value, op, tip] ##regresa los datos de una localidad y las licalidades #siguientes # @param localidad donde se obtendra el dato # @param num_loc cuantas localidades siguientes accedera def get_data_form_mem(self, location, num_loc): loc = self.register.filter_number(location) row = self.get_row_index(loc) col = self.get_column_index(loc) data = "" it = col count = 0 while count < num_loc: item = self.window.tableWidget.item(row, it) data += str(item.text()) it = (it + 1) % 17 if it == 0: it = 1 row += 1 count += 1 return data def get_row_index(self, value): index = str(value[0:-1]) + "0" it = 0 index = self.register.adjust_bytes(index, 6, False) num_rows = self.window.tableWidget.rowCount() while it < num_rows: val = self.window.tableWidget.item(it, 0) if str(val.text()) == index: return it it += 1 return 0 def get_column_index(self, value): index = str(value[-1]) + "H" index = self.convert.to_decimal(index) return index + 1 def get_m_type3(self): cp = self.get_register(self.REG_CP) data1 = self.get_data_form_mem(cp, 1) type_d = self.get_operation_type(data1) next_loc = self.hexa.plus(cp, "1H") data = self.get_data_form_mem(next_loc, 1) print data1, type_d, next_loc, data msb = data[0] msb_d = int(self.convert.to_decimal(msb + "H")) tam = 3 if (msb_d & 1) == 1: tam = 4 next_loc = self.hexa.plus(next_loc, "1H") m = data[1] + self.get_data_form_mem(next_loc, tam - 2) print m, tam, next_loc cp = self.get_register(self.REG_CP) cp = self.hexa.plus(cp, str(tam)) self.set_register(self.REG_CP, cp) if type_d == "simple_s": m = str(msb_d & 7) + m type_d = "simple" elif (msb_d & 6) == 0: m = m else: if (msb_d & 4) == 4: b = self.get_register(self.REG_B) m = self.hexa.change_hexadecimal(m) print "rel base", b, m m = self.hexa.suma(m, b) if (msb_d & 2) == 2: cp = self.get_register(self.REG_CP) m = self.hexa.change_hexadecimal(m) print "rel cp", cp, m m = self.hexa.suma(m, cp) if (msb_d & 8) == 8: x = self.get_register(self.REG_X) m = self.hexa.change_hexadecimal(m) print ", X", x, m m = self.hexa.suma(m, x) print "mem", m if not type_d == "inmediato": m = self.register.adjust_bytes(m, 6, False) m = self.get_data_form_mem(m, 3) if not type_d == "simple": m = self.register.adjust_bytes(m, 6, False) m = self.get_data_form_mem(m, 3) print "return", m return m def get_m_type3_m(self): cp = self.get_register(self.REG_CP) data1 = self.get_data_form_mem(cp, 1) type_d = self.get_operation_type(data1) next_loc = self.hexa.plus(cp, "1H") data = self.get_data_form_mem(next_loc, 1) print data1, type_d, next_loc, data msb = data[0] msb_d = int(self.convert.to_decimal(msb + "H")) tam = 3 if (msb_d & 1) == 1: tam = 4 next_loc = self.hexa.plus(next_loc, "1H") m = data[1] + self.get_data_form_mem(next_loc, tam - 2) print m, tam, next_loc cp = self.get_register(self.REG_CP) cp = self.hexa.plus(cp, str(tam)) self.set_register(self.REG_CP, cp) if type_d == "simple_s": m = str(msb_d & 7) + m type_d = "simple" elif (msb_d & 6) == 0: m = m else: if (msb_d & 4) == 4: b = self.get_register(self.REG_B) m = self.hexa.change_hexadecimal(m) print "rel base", b, m m = self.hexa.suma(m, b) if (msb_d & 2) == 2: cp = self.get_register(self.REG_CP) m = self.hexa.change_hexadecimal(m) print "rel cp", cp, m m = self.hexa.suma(m, cp) if (msb_d & 8) == 8: x = self.get_register(self.REG_X) m = self.hexa.change_hexadecimal(m) print ", X", x, m m = self.hexa.suma(m, x) print "mem", m # if not type_d == "inmediato": # m = self.register.adjust_bytes(m,6,False) # m = self.get_data_form_mem(m,3) # if not type_d == "simple": # m = self.register.adjust_bytes(m,6,False) # m = self.get_data_form_mem(m,3) # print "return",m return m def get_operation_type(self, data): d = data[1] d_d = int(self.convert.to_decimal(d + "H")) val = d_d & 3 if val == 3: return "simple" elif val == 2: return "indirecto" elif val == 1: return "inmediato" return "simple_s" def add(self, m): string = "ADD\nA <- (A) + (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.plus(a, m) string += "\n(A) = " + a + "\n(m..m+2) = " + m + "\n(A) = " + res self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def addr(self, m): string = "ADDR\nr2 <- (r1) + (r2)" + "\n" r1 = self.registers[m[0]] r2 = self.registers[m[1]] string += "(r1) = " + r1[1] + "\n (r2) = " + r2[1] + "\n" dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) res = self.hexa.plus(dat1, dat2) string += "(" + r2[1] + ")<-" + res self.set_register(r2[0], res) self.window.textEdit_Actions.setText(string) def and_op(self, m): string = "AND\nA <- (A) & (m..m+2)\n" a = self.get_register(self.REG_A) string += "(A) : " + a + "\n" + "(m..m+2) : " + m res = self.hexa.and_op(a, m) self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def clear(self, m): r = self.registers[m[0]] string = "CLEAR\nr1 <- 0\nr1:" + r[1] self.set_register(r[0], "0H") self.window.textEdit_Actions.setText(string) def comp(self, m): string = "COMP\nCC = (A) : (m..m+2)" a = self.get_register(self.REG_A) string += "\n (A) = " + a + "\n (m..m+2) = " + m self.cc_val = self.hexa.cmp_op(a, m) string += "\nCC =" + self.cc_val self.window.textEdit_Actions.setText(string) def compr(self, m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "COMPR\nCC = r1 : r2\n" + "r1 = " + r1[1] + "\nr2 = " + r2[1] self.cc_val = self.hexa.cmp_op(dat1, dat2) string += "\n CC = " + self.cc_val self.window.textEdit_Actions.setText(string) def div(self, m): string = "DIV\nA <- (A) / (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.div(a, m) string += "\n(A) = " + a + "\n(m..m+2) = " + m + "\n(A) = " + res self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def divr(self, m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "DIVR\nr2 <- (r2) / (r1)\nr1 = " + r1[1] + "\nr2 = " + r2[1] res = self.hexa.div(dat2, dat1) string += "r2 = " + res self.set_register(r2[0], res) self.window.textEdit_Actions.setText(string) def j_op(self, m): string = "J: \n CP <- m\nm = " + m self.set_register(self.REG_CP, m) self.window.textEdit_Actions.setText(string) def jeq(self, m): string = "JEQ: \nsi CC == '=':\n\tCP <- m\n" string += "CC = '" + self.cc_val + "'" if self.cc_val == "=": self.set_register(self.REG_CP, m) string += "\nCP <- " + m self.window.textEdit_Actions.setText(string) def jgt(self, m): string = "JGT: \nsi CC == '>':\n\tCP <- m\n" string += "CC = '" + self.cc_val + "'" if self.cc_val == ">": self.set_register(self.REG_CP, m) string += "\nCP <- " + m self.window.textEdit_Actions.setText(string) def jlt(self, m): string = "JLT: \nsi CC == '<':\n\tCP <- m\n" string += "CC = '" + self.cc_val + "'" if self.cc_val == "<": self.set_register(self.REG_CP, m) string += "\nCP <- " + m self.window.textEdit_Actions.setText(string) def jsub(self, m): string = "JSUB:\n L <- (CP)\nCP <- m" cp = self.get_register(self.REG_CP) string += "\n(CP) = " + cp + "\nm = " + m self.set_register(self.REG_L, cp) self.set_register(self.REG_CP, m) self.window.textEdit_Actions.setText(string) def lda(self, m): string = "LDA\nA <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_A, m) self.window.textEdit_Actions.setText(string) def ldb(self, m): string = "LDB\nB <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_B, m) self.window.textEdit_Actions.setText(string) def ldch(self, m): string = "LDCH\nA[+der] <- (m)" a = self.get_register(self.REG_A) m = self.register.adjust_bytes(m, 6, False) m = self.get_data_form_mem(m, 1) string += "\n(A) = " + a + "\n(m) = " + m a = self.register.filter_number(a) a = a[0:-2] + m self.set_register(self.REG_A, a) self.window.textEdit_Actions.setText(string) def ldl(self, m): string = "LDL\nL <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_L, m) self.window.textEdit_Actions.setText(string) def lds(self, m): string = "LDS\nS <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_S, m) self.window.textEdit_Actions.setText(string) def ldt(self, m): string = "LDT\nT <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_T, m) self.window.textEdit_Actions.setText(string) def ldx(self, m): string = "LDX\nX <- (m..m+2)\n(m..m+2) = " + m self.set_register(self.REG_X, m) self.window.textEdit_Actions.setText(string) def mul(self, m): a = self.get_register(self.REG_A) string = "MUL\nA <- (A) * (m..m+2)\n(A) = " + a + "\n(m..m+2)=" + m res = self.hexa.mul(a, m) string += "\n (A) <- " + res self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def mulr(self, m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "MULR\nr2 <- (r2) * (r1)\nr1 = " + r1[1] + "\nr2 = " + r2[1] res = self.hexa.mul(dat2, dat1) string += "r2 = " + res self.set_register(r2[0], res) self.window.textEdit_Actions.setText(string) def or_op(self, m): string = "OR\nA <- (A) | (m..m+2)\n" a = self.get_register(self.REG_A) string += "(A) : " + a + "\n" + "(m..m+2) : " + m res = self.hexa.or_op(a, m) self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def rmo(self, m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) string = "RMO\nr2 <- (r1)\n r1 = " + r1[1] + "\nr2 =" + r2[1] string += "\nr2 <- " + dat1 self.set_register(r2[0], dat1) self.window.textEdit_Actions.setText(string) def rsub(self, m): l = self.get_register(self.REG_L) string = "RSUB\nCP <- (L)\n(L) = " + l string += "CP <-" + l self.set_register(self.REG_CP, l) self.window.textEdit_Actions.setText(string) def sta(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_A) string = "STA\n m..m+2 <- (A)\nm..m+2 = " + m + "\n(A) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def sta(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_A) string = "STA\n m..m+2 <- (A)\nm..m+2 = " + m + "\n(A) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stb(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_B) string = "STB\n m..m+2 <- (B)\nm..m+2 = " + m + "\n(B) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stch(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_A) reg = self.register.filter_number(reg)[-2:] string = "STCH\n m <- (A)[+der]\nm..m+2 = " + m + "\n(A)[+der] = " + reg ##S rm = self.hexa.plus(m,"2H") m = self.register.adjust_bytes(m, 6, False) print "stsh", reg, m self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stl(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_L) string = "STL\n m..m+2 <- (L)\nm..m+2 = " + m + "\n(L) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def sts(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_S) string = "STS\n m..m+2 <- (S)\nm..m+2 = " + m + "\n(S) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stsw(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_SW) string = "STSW\n m..m+2 <- (SW)\nm..m+2 = " + m + "\n(SW) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stt(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_T) string = "STT\n m..m+2 <- (T)\nm..m+2 = " + m + "\n(T) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def stx(self, m): m = self.register.adjust_bytes(m, 6, False) reg = self.get_register(self.REG_X) string = "STX\n m..m+2 <- (X)\nm..m+2 = " + m + "\n(X) = " + reg reg = self.register.filter_number(reg) self.modf_reg(reg, m) self.window.textEdit_Actions.setText(string) def modf_reg(self, reg, m): row = self.get_row_index(m) col = self.get_column_index(m) it = col count = 0 while count < len(reg): item = self.window.tableWidget.item(row, it) text = reg[count:count + 2] count += 2 item.setText(text) it = (it + 1) % 17 if it == 0: it = 1 row += 1 def sub(self, m): string = "ADD\nA <- (A) - (m..m+2)" a = self.get_register(self.REG_A) res = self.hexa.subs(a, m) string += "\n(A) = " + a + "\n(m..m+2) = " + m + "\n(A) = " + res self.set_register(self.REG_A, res) self.window.textEdit_Actions.setText(string) def subr(self, m): r1 = self.registers[m[0]] r2 = self.registers[m[1]] dat1 = self.get_register(r1[0]) dat2 = self.get_register(r2[0]) string = "SUBR\nr2 <- (r2) - (r1)\nr1 = " + r1[1] + "\nr2 = " + r2[1] res = self.hexa.subs(dat2, dat1) string += "r2 = " + res self.set_register(r2[0], res) self.window.textEdit_Actions.setText(string) def tix(self, m): x = self.get_register(self.REG_X) string = "TIX\n(X) <- (X) + 1\n(X) : (m..m+2)\n(X)=" + x x = self.hexa.plus(x, "1H") self.set_register(self.REG_X, x) string += "\n(X)<- (X) + 1\n(X) <- " + x + "\n(m..m+2)=" + m self.cc_val = self.hexa.cmp_op(x, m) string += "\nCC = " + self.cc_val self.window.textEdit_Actions.setText(string) def tixr(self, m): r1 = self.registers[m[0]] dat1 = self.get_register(r1[0]) string = "TIX\n X <- (X) + 1\n(X) : (r1)\nr1 = " + r1[1] x = self.get_register(self.REG_X) x = self.hexa.plus(x, "1H") self.set_register(self.REG_X, x) self.cc_val = self.hexa.cmp_op(x, dat1) string += "CC = " + self.cc_val self.window.textEdit_Actions.setText(string)
class Cargador(QtGui.QDockWidget): def __init__(self, parent=None): QtGui.QWidget.__init__(self) self.window = Ui_DockWidget() self.window.setupUi(self) self.file_name = None self.init = None self.header = None self.registers = None self.end = None self.rows_count = None self.end_program = None self.cc = "=" self.hex = Hexadecimal() self.reg = Register("T") self.window.btnSimular.clicked.connect(self.simular) self.operations = { "18": self.add, "00": self.lda, "40": self.andop, "28": self.cmp_op, "24": self.div, "3C": self.j_op, "30": self.jeq, "34": self.jgt, "38": self.jlt, "48": self.jsub, "50": self.ldch, "08": self.ldl, "04": self.ldx, "20": self.mul, "4C": self.rsub, "0C": self.sta, "54": self.stch, "14": self.stl, "E8": self.stsw, "10": self.stx, "1C": self.sub, "2C": self.tix, } self.operations_text = { "18": "ADD", "00": "LDA", "40": "AND", "28": "COMP", "24": "DIV", "3C": "J", "30": "JEQ", "34": "JGT", "38": "JLT", "48": "JSUB", "50": "LDCH", "08": "LDL", "04": "LDX", "20": "MUL", "4C": "RSUB", "0C": "STA", "54": "STCH", "14": "STL", "E8": "STSW", "10": "STX", "1C": "SUB", "2C": "TIX", } def simular(self): num_actions = self.get_count_next_actions() if num_actions == -1: self.window.textEdit_Actions.setText("Numero de simulaciones no Validas") else: self.make_n_simulations(num_actions) def make_n_simulations(self, number): cp = self.get_CP_value() if self.hex.minus_than(cp, self.end_program): it = 0 while it < number: register = self.get_instruct() operation = register[0:2] address = register[2:] val = self.get_address_tarjet(address) fun = self.operations[operation] fun(val) it += 1 else: self.window.textEdit_Actions.setText("El programa se ha terminado no puede continuar la simulacion") def add(self, m): a = self.get_a_value() string = "ADD: \nCP = 18" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.plus(a, m) string += "A <- A + (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def andop(self, m): a = self.get_a_value() string = "AND: \nCP = 40" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.and_op(a, m) string += "A <- A & (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def cmp_op(self, m): a = self.get_a_value() string = "COMP: \nA = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" self.cc = self.hex.cmp_op(a, m) string += "(A):(m..m+2)\n" string += "CC = " + self.cc self.increment_cp(3) self.window.textEdit_Actions.setText(string) def div(self, m): a = self.get_a_value() string = "DIV: \nCP = 24" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.div(a, m) string += "A <- A / (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def lda(self, m): string = "LDA: \nm = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) = " + str(m) + "\n" string += "A <- (m..m+2)" a = self.reg.adjust_bytes(m, 6, False) self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def j_op(self, m): string = "J:\nCP<-m\n" string += "m = " + str(m) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) self.set_cp_value(m) self.window.textEdit_Actions.setText(string) def jeq(self, m): string = "JEQ \nCP<-m si CC == '='\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == "=": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jgt(self, m): string = "JGT \nCP<-m si CC == '>'\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == ">": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jlt(self, m): string = "JLT \nCP<-m si CC == '<'\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == "<": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jsub(self, m): string = "JSUB \n L->(CP);CP<-m" cp = self.get_CP_value() string += "CP = " + str(cp) + "\n" cp = self.get_mem_value(cp) string += "(CP) = " + str(cp) + "\n" self.set_l_value(cp) self.set_cp_value(m) self.window.textEdit_Actions.setText(string) def ldch(self, m): string = "LDCH\nA[+der]<-(m)\n" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) m = m[0:2] a = self.get_a_value() string += "(m) = " + str(m) + "\n" string += "A = " + str(a) + "\n" a = self.reg.filter_number(a) a = a[0:-2] + m string += "A[+der]<-(m)\n" string += "A = " + str(a) self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def ldl(self, m): string = "LDL\nL<-(m..m+2)" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) =" + str(m) self.increment_cp(3) self.window.textEdit_Actions.setText(string) self.set_l_value(m) def ldx(self, m): string = "LDX\nX<-(m..m+2)" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) =" + str(m) self.increment_cp(3) self.window.textEdit_Actions.setText(string) self.set_x_value(m) def mul(self, m): a = self.get_a_value() string = "MUL: \nCP = 20" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.mul(a, m) string += "A <- A * (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def or_op(self, m): a = self.get_a_value() string = "OR: \nCP = 44" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.or_op(a, m) string += "A <- A | (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def rsub(self, m): string = "RSUB\nPC<-(L)" l = self.get_l_value() string += "L=" + str(l) + "\n" l = self.get_mem_value(l) string += "(L)=" + str(l) + "\n" self.set_cp_value(l) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def sta(self, m): string = "STA\nm..m+2<-(A)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) a = self.get_a_value() string += "(A)=" + str(a) index = 0 while it < 3: val = a[index : index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stch(self, m): string = "STCH\nm<-(A)[+der]\nm=" + str(m) + "\n" row = self.get_row_index(m) col = self.get_column_index(m) print row, col, m a = self.get_a_value() a = self.reg.filter_number(a) a_der = str(a)[-2:] string += "(A)[+der]=" + a_der item = QtGui.QTableWidgetItem(a_der) self.window.tableWidget.setItem(row, col, item) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stl(self, m): string = "STL\nm..m+2<-(L)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) l = self.get_l_value() string += "(l)=" + str(l) index = 0 while it < 3: val = l[index : index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stsw(self, m): string = "STSW\nm..m+2<-(SW)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) sw = self.get_sw_value() string += "(SW)=" + str(sw) index = 0 while it < 3: val = sw[index : index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stx(self, m): string = "STSX\nm..m+2<-(X)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) x = self.get_x_value() string += "(X)=" + str(x) index = 0 while it < 3: val = x[index : index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def sub(self, m): a = self.get_a_value() string = "SUB: \nCP = 1C" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.subs(a, m) string += "A <- A - (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def tix(self, m): string = "TIX\nX<-(X)+1;(X):(m,,m+2)\n" x = self.get_x_value() string += "X =" + str(x) + "+1\n" x = self.hex.plus(x, "1H") string += "X =" + str(x) + "\n" self.set_x_value(x) m = self.get_mem_value(m) string += "(m..m+2) +" + str(m) + "\n" self.cc = self.hex.cmp_op(x, m) string += "(X):(m..m+2)\nCC=" + self.cc self.increment_cp(3) self.window.textEdit_Actions.setText(string) def increment_cp(self, num): c = Convert() num = c.decimal_to_hexadecimal(num) cp = self.get_CP_value() cp = self.hex.plus(cp, num) self.set_cp_value(cp) def get_address_tarjet(self, value): c = Convert() addressing = value[0] + "H" addressing = int(c.to_decimal(addressing)) val = value bina = c.decimal_to_binary(addressing, 4) bina = c.mask_and(bina, "1000") if bina == "1000": val = self.hex.subs(value, "8000H") x = self.get_x_value() val = self.hex.plus(val, x) val = self.reg.filter_number(val) return val def set_a_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(1, 0, item_text) def get_a_value(self): item = self.window.tableWidget_2.item(1, 0) return str(item.text()) def get_l_value(self): item = self.window.tableWidget_2.item(3, 0) return str(item.text()) def set_l_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(3, 0, item_text) def get_x_value(self): item = self.window.tableWidget_2.item(2, 0) return str(item.text()) def set_x_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(2, 0, item_text) def get_sw_value(self): item = self.window.tableWidget_2.item(4, 0) return str(item.text()) def set_sw_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(4, 0, item_text) def get_CP_value(self): item = self.window.tableWidget_2.item(0, 0) return str(item.text()) def set_cp_value(self, cp): cp = self.reg.adjust_bytes(cp, 6, False) cp = self.hex.change_hexadecimal(cp) item_text = QtGui.QTableWidgetItem(cp) self.window.tableWidget_2.setItem(0, 0, item_text) self.get_next_text_instruction() def get_next_text_instruction(self): cp = self.get_CP_value() mem = self.get_mem_value(cp) cod = mem[0:2] op = self.operations_text.get(str(cod), "FIN") self.window.label_sig.setText(op) def get_row_index(self, value): index = str(value[0:-1]) + "0" it = 0 index = self.reg.adjust_bytes(index, 6, False) num_rows = self.window.tableWidget.rowCount() while it < num_rows: val = self.window.tableWidget.item(it, 0) if str(val.text()) == index: return it it += 1 return 0 def get_column_index(self, value): c = Convert() index = str(value[-1]) + "H" index = c.to_decimal(index) del c return index + 1 def get_instruct(self): cp = self.get_CP_value() return self.get_mem_value(cp) def get_mem_value(self, value): value = self.reg.filter_number(str(value)) col = self.get_column_index(value) row = self.get_row_index(value) register = "" it = col cont = 0 while cont < 3: item = self.window.tableWidget.item(row, it) register += str(item.text()) it = (it + 1) % 17 if it == 0: it = 1 row += 1 cont += 1 return register def get_count_next_actions(self): count_actions = str(self.window.textEdit_Num.toPlainText()) if count_actions == "": count_actions = 1 elif not count_actions.isdigit(): return -1 return int(count_actions) def get_list_register(self): f = open(self.file_name) text = f.read() list = text.split("\n") list.remove("") return list def load_file_name(self, file_name): self.file_name = file_name + ".os" list = self.get_list_register() self.header = list[0] self.end = list[-1] self.registers = list[1:-1] self.charge_in_memory() def charge_text(self): c = Convert() for r in self.registers: string = r[9:] index = 0 init = r[1:7] col_start = init[-1] + "H" col = int(c.to_decimal(col_start) + 1) res = self.hex.subs(init[:-1], self.init[:-1]) dec_res = int(c.to_decimal(res)) while index < len(string): byte = string[index : index + 2] item = QtGui.QTableWidgetItem(byte) self.window.tableWidget.setItem(dec_res, col, item) index += 2 col = (col + 1) % 17 if col == 0: col = 1 dec_res += 1 def charge_header(self): init = self.header[7:13] self.init = init length = self.header[13:] self.end_program = self.hex.plus(init, length) star_rows = length[:-1] index = init[:-1] num_rows = star_rows + "H" c = Convert() num_rows = int(c.to_decimal(num_rows)) self.window.tableWidget.setRowCount(num_rows + 1) it = 0 while it <= num_rows: dir = index + "0H" r = Register("T") dir = r.adjust_bytes(dir, 6, False) item = QtGui.QTableWidgetItem(dir) self.window.tableWidget.setItem(it, 0, item) it += 1 index = self.hex.plus(index, "1H")[:-1] def charge_end_file(self): dir = self.end[1:] dir = self.reg.adjust_bytes(dir, 6, False) dir = self.hex.change_hexadecimal(dir) item = QtGui.QTableWidgetItem(dir) self.window.tableWidget_2.setItem(0, 0, item) self.get_next_text_instruction() it = 1 while it < 5: item = QtGui.QTableWidgetItem("FFFFFFH") self.window.tableWidget_2.setItem(it, 0, item) it += 1 def charge_in_memory(self): self.charge_header() self.charge_text() self.charge_end_file() self.init_empty_rows() def init_empty_rows(self): rows_count = self.window.tableWidget.rowCount() colum_count = self.window.tableWidget.columnCount() for i in range(rows_count): for j in range(colum_count): item = self.window.tableWidget.item(i, j) if item == None: item_text = QtGui.QTableWidgetItem("FF") self.window.tableWidget.setItem(i, j, item_text)
class Cargador(QtGui.QDockWidget): def __init__(self, parent=None): QtGui.QWidget.__init__(self) self.window = Ui_DockWidget() self.window.setupUi(self) self.file_name = None self.init = None self.header = None self.registers = None self.end = None self.rows_count = None self.end_program = None self.cc = "=" self.hex = Hexadecimal() self.reg = Register("T") self.window.btnSimular.clicked.connect(self.simular) self.operations = { "18": self.add, "00": self.lda, "40": self.andop, "28": self.cmp_op, "24": self.div, "3C": self.j_op, "30": self.jeq, "34": self.jgt, "38": self.jlt, "48": self.jsub, "50": self.ldch, "08": self.ldl, "04": self.ldx, "20": self.mul, "4C": self.rsub, "0C": self.sta, "54": self.stch, "14": self.stl, "E8": self.stsw, "10": self.stx, "1C": self.sub, "2C": self.tix } self.operations_text = { "18": "ADD", "00": "LDA", "40": "AND", "28": "COMP", "24": "DIV", "3C": "J", "30": "JEQ", "34": "JGT", "38": "JLT", "48": "JSUB", "50": "LDCH", "08": "LDL", "04": "LDX", "20": "MUL", "4C": "RSUB", "0C": "STA", "54": "STCH", "14": "STL", "E8": "STSW", "10": "STX", "1C": "SUB", "2C": "TIX" } def simular(self): num_actions = self.get_count_next_actions() if num_actions == -1: self.window.textEdit_Actions.setText( "Numero de simulaciones no Validas") else: self.make_n_simulations(num_actions) def make_n_simulations(self, number): cp = self.get_CP_value() if self.hex.minus_than(cp, self.end_program): it = 0 while it < number: register = self.get_instruct() operation = register[0:2] address = register[2:] val = self.get_address_tarjet(address) fun = self.operations[operation] fun(val) it += 1 else: self.window.textEdit_Actions.setText( "El programa se ha terminado no puede continuar la simulacion") def add(self, m): a = self.get_a_value() string = "ADD: \nCP = 18" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.plus(a, m) string += "A <- A + (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def andop(self, m): a = self.get_a_value() string = "AND: \nCP = 40" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.and_op(a, m) string += "A <- A & (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def cmp_op(self, m): a = self.get_a_value() string = "COMP: \nA = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" self.cc = self.hex.cmp_op(a, m) string += "(A):(m..m+2)\n" string += "CC = " + self.cc self.increment_cp(3) self.window.textEdit_Actions.setText(string) def div(self, m): a = self.get_a_value() string = "DIV: \nCP = 24" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.div(a, m) string += "A <- A / (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def lda(self, m): string = "LDA: \nm = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) = " + str(m) + "\n" string += "A <- (m..m+2)" a = self.reg.adjust_bytes(m, 6, False) self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def j_op(self, m): string = "J:\nCP<-m\n" string += "m = " + str(m) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) self.set_cp_value(m) self.window.textEdit_Actions.setText(string) def jeq(self, m): string = "JEQ \nCP<-m si CC == '='\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == "=": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jgt(self, m): string = "JGT \nCP<-m si CC == '>'\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == ">": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jlt(self, m): string = "JLT \nCP<-m si CC == '<'\n" string += "m = " + str(m) + "\n" string += "cc = " + str(self.cc) m = self.reg.adjust_bytes(m, 6, False) m = self.hex.change_hexadecimal(m) if self.cc == "<": self.set_cp_value(m) else: self.increment_cp(3) self.window.textEdit_Actions.setText(string) def jsub(self, m): string = "JSUB \n L->(CP);CP<-m" cp = self.get_CP_value() string += "CP = " + str(cp) + "\n" cp = self.get_mem_value(cp) string += "(CP) = " + str(cp) + "\n" self.set_l_value(cp) self.set_cp_value(m) self.window.textEdit_Actions.setText(string) def ldch(self, m): string = "LDCH\nA[+der]<-(m)\n" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) m = m[0:2] a = self.get_a_value() string += "(m) = " + str(m) + "\n" string += "A = " + str(a) + "\n" a = self.reg.filter_number(a) a = a[0:-2] + m string += "A[+der]<-(m)\n" string += "A = " + str(a) self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def ldl(self, m): string = "LDL\nL<-(m..m+2)" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) =" + str(m) self.increment_cp(3) self.window.textEdit_Actions.setText(string) self.set_l_value(m) def ldx(self, m): string = "LDX\nX<-(m..m+2)" string += "m = " + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2) =" + str(m) self.increment_cp(3) self.window.textEdit_Actions.setText(string) self.set_x_value(m) def mul(self, m): a = self.get_a_value() string = "MUL: \nCP = 20" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.mul(a, m) string += "A <- A * (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def or_op(self, m): a = self.get_a_value() string = "OR: \nCP = 44" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.or_op(a, m) string += "A <- A | (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def rsub(self, m): string = "RSUB\nPC<-(L)" l = self.get_l_value() string += "L=" + str(l) + "\n" l = self.get_mem_value(l) string += "(L)=" + str(l) + "\n" self.set_cp_value(l) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def sta(self, m): string = "STA\nm..m+2<-(A)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) a = self.get_a_value() string += "(A)=" + str(a) index = 0 while it < 3: val = a[index:index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stch(self, m): string = "STCH\nm<-(A)[+der]\nm=" + str(m) + "\n" row = self.get_row_index(m) col = self.get_column_index(m) print row, col, m a = self.get_a_value() a = self.reg.filter_number(a) a_der = str(a)[-2:] string += "(A)[+der]=" + a_der item = QtGui.QTableWidgetItem(a_der) self.window.tableWidget.setItem(row, col, item) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stl(self, m): string = "STL\nm..m+2<-(L)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) l = self.get_l_value() string += "(l)=" + str(l) index = 0 while it < 3: val = l[index:index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stsw(self, m): string = "STSW\nm..m+2<-(SW)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) sw = self.get_sw_value() string += "(SW)=" + str(sw) index = 0 while it < 3: val = sw[index:index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def stx(self, m): string = "STSX\nm..m+2<-(X)\nm=" + str(m) + "\n" it = 0 row = self.get_row_index(m) col = self.get_column_index(m) x = self.get_x_value() string += "(X)=" + str(x) index = 0 while it < 3: val = x[index:index + 2] index += 2 item_text = QtGui.QTableWidgetItem(val) self.window.tableWidget.setItem(row, col, item_text) col = (col + 1) % 17 if col == 0: col = 1 row += 1 it += 1 self.increment_cp(3) self.window.textEdit_Actions.setText(string) def sub(self, m): a = self.get_a_value() string = "SUB: \nCP = 1C" + str(m) + "\n" string += "A = " + str(a) + "\n" string += "m =" + str(m) + "\n" m = self.get_mem_value(m) string += "(m..m+2)=" + str(m) + "\n" a = self.hex.subs(a, m) string += "A <- A - (m...m+2)" + "\n" a = self.reg.adjust_bytes(a, 6, False) string += "A = " + str(a) + "\n" self.set_a_value(a) self.increment_cp(3) self.window.textEdit_Actions.setText(string) def tix(self, m): string = "TIX\nX<-(X)+1;(X):(m,,m+2)\n" x = self.get_x_value() string += "X =" + str(x) + "+1\n" x = self.hex.plus(x, "1H") string += "X =" + str(x) + "\n" self.set_x_value(x) m = self.get_mem_value(m) string += "(m..m+2) +" + str(m) + "\n" self.cc = self.hex.cmp_op(x, m) string += "(X):(m..m+2)\nCC=" + self.cc self.increment_cp(3) self.window.textEdit_Actions.setText(string) def increment_cp(self, num): c = Convert() num = c.decimal_to_hexadecimal(num) cp = self.get_CP_value() cp = self.hex.plus(cp, num) self.set_cp_value(cp) def get_address_tarjet(self, value): c = Convert() addressing = value[0] + "H" addressing = int(c.to_decimal(addressing)) val = value bina = c.decimal_to_binary(addressing, 4) bina = c.mask_and(bina, "1000") if bina == "1000": val = self.hex.subs(value, "8000H") x = self.get_x_value() val = self.hex.plus(val, x) val = self.reg.filter_number(val) return val def set_a_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(1, 0, item_text) def get_a_value(self): item = self.window.tableWidget_2.item(1, 0) return str(item.text()) def get_l_value(self): item = self.window.tableWidget_2.item(3, 0) return str(item.text()) def set_l_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(3, 0, item_text) def get_x_value(self): item = self.window.tableWidget_2.item(2, 0) return str(item.text()) def set_x_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(2, 0, item_text) def get_sw_value(self): item = self.window.tableWidget_2.item(4, 0) return str(item.text()) def set_sw_value(self, value): value = self.reg.adjust_bytes(value, 6, False) value = self.hex.change_hexadecimal(value) item_text = QtGui.QTableWidgetItem(value) self.window.tableWidget_2.setItem(4, 0, item_text) def get_CP_value(self): item = self.window.tableWidget_2.item(0, 0) return str(item.text()) def set_cp_value(self, cp): cp = self.reg.adjust_bytes(cp, 6, False) cp = self.hex.change_hexadecimal(cp) item_text = QtGui.QTableWidgetItem(cp) self.window.tableWidget_2.setItem(0, 0, item_text) self.get_next_text_instruction() def get_next_text_instruction(self): cp = self.get_CP_value() mem = self.get_mem_value(cp) cod = mem[0:2] op = self.operations_text.get(str(cod), "FIN") self.window.label_sig.setText(op) def get_row_index(self, value): index = str(value[0:-1]) + "0" it = 0 index = self.reg.adjust_bytes(index, 6, False) num_rows = self.window.tableWidget.rowCount() while it < num_rows: val = self.window.tableWidget.item(it, 0) if str(val.text()) == index: return it it += 1 return 0 def get_column_index(self, value): c = Convert() index = str(value[-1]) + "H" index = c.to_decimal(index) del c return index + 1 def get_instruct(self): cp = self.get_CP_value() return self.get_mem_value(cp) def get_mem_value(self, value): value = self.reg.filter_number(str(value)) col = self.get_column_index(value) row = self.get_row_index(value) register = "" it = col cont = 0 while cont < 3: item = self.window.tableWidget.item(row, it) register += str(item.text()) it = (it + 1) % 17 if it == 0: it = 1 row += 1 cont += 1 return register def get_count_next_actions(self): count_actions = str(self.window.textEdit_Num.toPlainText()) if count_actions == "": count_actions = 1 elif not count_actions.isdigit(): return -1 return int(count_actions) def get_list_register(self): f = open(self.file_name) text = f.read() list = text.split("\n") list.remove("") return list def load_file_name(self, file_name): self.file_name = file_name + ".os" list = self.get_list_register() self.header = list[0] self.end = list[-1] self.registers = list[1:-1] self.charge_in_memory() def charge_text(self): c = Convert() for r in self.registers: string = r[9:] index = 0 init = r[1:7] col_start = init[-1] + "H" col = int(c.to_decimal(col_start) + 1) res = self.hex.subs(init[:-1], self.init[:-1]) dec_res = int(c.to_decimal(res)) while index < len(string): byte = string[index:index + 2] item = QtGui.QTableWidgetItem(byte) self.window.tableWidget.setItem(dec_res, col, item) index += 2 col = (col + 1) % 17 if col == 0: col = 1 dec_res += 1 def charge_header(self): init = self.header[7:13] self.init = init length = self.header[13:] self.end_program = self.hex.plus(init, length) star_rows = length[:-1] index = init[:-1] num_rows = star_rows + "H" c = Convert() num_rows = int(c.to_decimal(num_rows)) self.window.tableWidget.setRowCount(num_rows + 1) it = 0 while it <= num_rows: dir = index + "0H" r = Register("T") dir = r.adjust_bytes(dir, 6, False) item = QtGui.QTableWidgetItem(dir) self.window.tableWidget.setItem(it, 0, item) it += 1 index = self.hex.plus(index, "1H")[:-1] def charge_end_file(self): dir = self.end[1:] dir = self.reg.adjust_bytes(dir, 6, False) dir = self.hex.change_hexadecimal(dir) item = QtGui.QTableWidgetItem(dir) self.window.tableWidget_2.setItem(0, 0, item) self.get_next_text_instruction() it = 1 while it < 5: item = QtGui.QTableWidgetItem("FFFFFFH") self.window.tableWidget_2.setItem(it, 0, item) it += 1 def charge_in_memory(self): self.charge_header() self.charge_text() self.charge_end_file() self.init_empty_rows() def init_empty_rows(self): rows_count = self.window.tableWidget.rowCount() colum_count = self.window.tableWidget.columnCount() for i in range(rows_count): for j in range(colum_count): item = self.window.tableWidget.item(i, j) if item == None: item_text = QtGui.QTableWidgetItem("FF") self.window.tableWidget.setItem(i, j, item_text)