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sensor.asm
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sensor.asm
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_main:
;sensor.c,10 :: void main()
;sensor.c,12 :: CMCON |= 7; // Disable Comparators
MOVLW 7
IORWF CMCON+0, 1
;sensor.c,13 :: TRISA0_bit = 0; // RA.0 to RA.2 Output, RA.4 Output
BCF TRISA0_bit+0, BitPos(TRISA0_bit+0)
;sensor.c,14 :: TRISA1_bit = 0; // RB.0 to RB.6 Output
BCF TRISA1_bit+0, BitPos(TRISA1_bit+0)
;sensor.c,15 :: TRISA2_bit = 0; // RA.5 Resetn Only
BCF TRISA2_bit+0, BitPos(TRISA2_bit+0)
;sensor.c,16 :: TRISA4_bit = 0; // RA.3 Input temp +
BCF TRISA4_bit+0, BitPos(TRISA4_bit+0)
;sensor.c,17 :: TRISB0_bit = 0; // RA.6 Input temp -
BCF TRISB0_bit+0, BitPos(TRISB0_bit+0)
;sensor.c,18 :: TRISB1_bit = 0; // RA.7 Input start/stop
BCF TRISB1_bit+0, BitPos(TRISB1_bit+0)
;sensor.c,19 :: TRISB2_bit = 0; //**********************************************//
BCF TRISB2_bit+0, BitPos(TRISB2_bit+0)
;sensor.c,20 :: TRISB3_bit = 0;
BCF TRISB3_bit+0, BitPos(TRISB3_bit+0)
;sensor.c,21 :: TRISB4_bit = 0;
BCF TRISB4_bit+0, BitPos(TRISB4_bit+0)
;sensor.c,22 :: TRISB5_bit = 0;
BCF TRISB5_bit+0, BitPos(TRISB5_bit+0)
;sensor.c,23 :: TRISB6_bit = 0;
BCF TRISB6_bit+0, BitPos(TRISB6_bit+0)
;sensor.c,24 :: PORTB = 1;
MOVLW 1
MOVWF PORTB+0
;sensor.c,26 :: temp_por_defecto = EEPROM_Read(0x01); //lee el valor de la temperatura seteada que se almacena en la eeprom
MOVLW 1
MOVWF FARG_EEPROM_Read_Address+0
CALL _EEPROM_Read+0
MOVF R0+0, 0
MOVWF _temp_por_defecto+0
;sensor.c,27 :: valor_manual = temp_por_defecto;
MOVF _temp_por_defecto+0, 0
MOVWF _valor_manual+0
;sensor.c,28 :: RA0_bit = 0; //LOGICA POSITIVA
BCF RA0_bit+0, BitPos(RA0_bit+0)
;sensor.c,29 :: RA1_bit = 0; //LOGICA POSITIVA
BCF RA1_bit+0, BitPos(RA1_bit+0)
;sensor.c,30 :: RA2_bit = 1; //LOGICA NEGATIVA
BSF RA2_bit+0, BitPos(RA2_bit+0)
;sensor.c,31 :: RA4_bit = 0; //LOGICA POSITIVA
BCF RA4_bit+0, BitPos(RA4_bit+0)
;sensor.c,32 :: do
L_main0:
;sensor.c,34 :: DD0 = valor_manual % 10; // Extract One Digit
MOVLW 10
MOVWF R4+0
MOVF _valor_manual+0, 0
MOVWF R0+0
CALL _Div_8X8_U+0
MOVF R8+0, 0
MOVWF R0+0
MOVF R0+0, 0
MOVWF _DD0+0
;sensor.c,35 :: DD0 = mask(DD0);
MOVF _DD0+0, 0
MOVWF FARG_mask_num+0
CALL _mask+0
MOVF R0+0, 0
MOVWF _DD0+0
;sensor.c,36 :: DD1 = (valor_manual / 10) % 10; // Extract Tens Digit
MOVLW 10
MOVWF R4+0
MOVF _valor_manual+0, 0
MOVWF R0+0
CALL _Div_8X8_U+0
MOVLW 10
MOVWF R4+0
CALL _Div_8X8_U+0
MOVF R8+0, 0
MOVWF R0+0
MOVF R0+0, 0
MOVWF _DD1+0
;sensor.c,37 :: DD1 = mask(DD1);
MOVF _DD1+0, 0
MOVWF FARG_mask_num+0
CALL _mask+0
MOVF R0+0, 0
MOVWF _DD1+0
;sensor.c,38 :: display_temp(DD0, DD1);
MOVF _DD0+0, 0
MOVWF FARG_display_temp_DD0+0
MOVF _DD1+0, 0
MOVWF FARG_display_temp_DD1+0
CALL _display_temp+0
;sensor.c,40 :: if (presionBoton(3) == 3) //Si se presiono el boton de temp +
MOVLW 3
MOVWF FARG_presionBoton_pin+0
CALL _presionBoton+0
MOVF R0+0, 0
XORLW 3
BTFSS STATUS+0, 2
GOTO L_main3
;sensor.c,42 :: if (valor_manual < temp_maxima) //Si el valor seteado es menor a la temperatura maxima acumule en 1
MOVF _temp_maxima+0, 0
SUBWF _valor_manual+0, 0
BTFSC STATUS+0, 0
GOTO L_main4
;sensor.c,44 :: valor_manual++;
INCF _valor_manual+0, 1
;sensor.c,45 :: EEPROM_Write(0x01,valor_manual);
MOVLW 1
MOVWF FARG_EEPROM_Write_Address+0
MOVF _valor_manual+0, 0
MOVWF FARG_EEPROM_Write_data_+0
CALL _EEPROM_Write+0
;sensor.c,46 :: }
L_main4:
;sensor.c,47 :: }
L_main3:
;sensor.c,48 :: if (presionBoton(6) == 6) //si se presiono el boton de temp -
MOVLW 6
MOVWF FARG_presionBoton_pin+0
CALL _presionBoton+0
MOVF R0+0, 0
XORLW 6
BTFSS STATUS+0, 2
GOTO L_main5
;sensor.c,50 :: if (valor_manual >= temp_minima) //Si el valor seteado es mayor a la temperatura maxima disminuye en 1
MOVF _temp_minima+0, 0
SUBWF _valor_manual+0, 0
BTFSS STATUS+0, 0
GOTO L_main6
;sensor.c,52 :: valor_manual--;
DECF _valor_manual+0, 1
;sensor.c,53 :: EEPROM_Write(0x01,valor_manual);
MOVLW 1
MOVWF FARG_EEPROM_Write_Address+0
MOVF _valor_manual+0, 0
MOVWF FARG_EEPROM_Write_data_+0
CALL _EEPROM_Write+0
;sensor.c,54 :: }
L_main6:
;sensor.c,55 :: }
L_main5:
;sensor.c,56 :: if (presionBoton(7) == 7) //si se presiono el boton start
MOVLW 7
MOVWF FARG_presionBoton_pin+0
CALL _presionBoton+0
MOVF R0+0, 0
XORLW 7
BTFSS STATUS+0, 2
GOTO L_main7
;sensor.c,58 :: do
L_main8:
;sensor.c,60 :: N_Flag = 0; // Reset Temp Flag
CLRF _N_Flag+0
;sensor.c,61 :: DS18B20();
CALL _DS18B20+0
;sensor.c,62 :: DD0 = temp_value % 10;
MOVLW 10
MOVWF R4+0
MOVLW 0
MOVWF R4+1
MOVF _temp_value+0, 0
MOVWF R0+0
MOVF _temp_value+1, 0
MOVWF R0+1
CALL _Div_16X16_U+0
MOVF R8+0, 0
MOVWF R0+0
MOVF R8+1, 0
MOVWF R0+1
MOVF R0+0, 0
MOVWF _DD0+0
;sensor.c,63 :: DD0 = mask(DD0);
MOVF _DD0+0, 0
MOVWF FARG_mask_num+0
CALL _mask+0
MOVF R0+0, 0
MOVWF _DD0+0
;sensor.c,64 :: DD1 = (temp_value / 10) % 10;
MOVLW 10
MOVWF R4+0
MOVLW 0
MOVWF R4+1
MOVF _temp_value+0, 0
MOVWF R0+0
MOVF _temp_value+1, 0
MOVWF R0+1
CALL _Div_16X16_U+0
MOVLW 10
MOVWF R4+0
MOVLW 0
MOVWF R4+1
CALL _Div_16X16_U+0
MOVF R8+0, 0
MOVWF R0+0
MOVF R8+1, 0
MOVWF R0+1
MOVF R0+0, 0
MOVWF _DD1+0
;sensor.c,65 :: DD1 = mask(DD1);
MOVF _DD1+0, 0
MOVWF FARG_mask_num+0
CALL _mask+0
MOVF R0+0, 0
MOVWF _DD1+0
;sensor.c,66 :: display_temp(DD0, DD1);
MOVF _DD0+0, 0
MOVWF FARG_display_temp_DD0+0
MOVF _DD1+0, 0
MOVWF FARG_display_temp_DD1+0
CALL _display_temp+0
;sensor.c,67 :: if (temp_value >= valor_manual)
MOVLW 0
SUBWF _temp_value+1, 0
BTFSS STATUS+0, 2
GOTO L__main43
MOVF _valor_manual+0, 0
SUBWF _temp_value+0, 0
L__main43:
BTFSS STATUS+0, 0
GOTO L_main11
;sensor.c,69 :: RA2_bit = 1;
BSF RA2_bit+0, BitPos(RA2_bit+0)
;sensor.c,70 :: RA4_bit = 0;
BCF RA4_bit+0, BitPos(RA4_bit+0)
;sensor.c,71 :: }
GOTO L_main12
L_main11:
;sensor.c,74 :: RA2_bit = 0;
BCF RA2_bit+0, BitPos(RA2_bit+0)
;sensor.c,75 :: RA4_bit = 1;
BSF RA4_bit+0, BitPos(RA4_bit+0)
;sensor.c,76 :: }
L_main12:
;sensor.c,78 :: } while (!presionBoton(7)); //Mientras no se presione el boton start
MOVLW 7
MOVWF FARG_presionBoton_pin+0
CALL _presionBoton+0
MOVF R0+0, 0
BTFSC STATUS+0, 2
GOTO L_main8
;sensor.c,79 :: RA2_bit = 1; //LOGICA NEGATIVA
BSF RA2_bit+0, BitPos(RA2_bit+0)
;sensor.c,80 :: RA4_bit = 0; //LOGICA POSITIVA
BCF RA4_bit+0, BitPos(RA4_bit+0)
;sensor.c,81 :: }
L_main7:
;sensor.c,83 :: } while (1);
GOTO L_main0
;sensor.c,84 :: }
L_end_main:
GOTO $+0
; end of _main
_mask:
;sensor.c,86 :: unsigned short mask(unsigned short num) // Mask for 7 segment Common Anode;
;sensor.c,88 :: switch (num)
GOTO L_mask13
;sensor.c,90 :: case 0:
L_mask15:
;sensor.c,91 :: return 0x40; // 0;
MOVLW 64
MOVWF R0+0
GOTO L_end_mask
;sensor.c,92 :: case 1:
L_mask16:
;sensor.c,93 :: return 0x79; // 1;
MOVLW 121
MOVWF R0+0
GOTO L_end_mask
;sensor.c,94 :: case 2:
L_mask17:
;sensor.c,95 :: return 0x24; // 2;
MOVLW 36
MOVWF R0+0
GOTO L_end_mask
;sensor.c,96 :: case 3:
L_mask18:
;sensor.c,97 :: return 0x30; // 3;
MOVLW 48
MOVWF R0+0
GOTO L_end_mask
;sensor.c,98 :: case 4:
L_mask19:
;sensor.c,99 :: return 0x19; // 4;
MOVLW 25
MOVWF R0+0
GOTO L_end_mask
;sensor.c,100 :: case 5:
L_mask20:
;sensor.c,101 :: return 0x12; // 5;
MOVLW 18
MOVWF R0+0
GOTO L_end_mask
;sensor.c,102 :: case 6:
L_mask21:
;sensor.c,103 :: return 0x02; // 6;
MOVLW 2
MOVWF R0+0
GOTO L_end_mask
;sensor.c,104 :: case 7:
L_mask22:
;sensor.c,105 :: return 0x78; // 7;
MOVLW 120
MOVWF R0+0
GOTO L_end_mask
;sensor.c,106 :: case 8:
L_mask23:
;sensor.c,107 :: return 0x00; // 8;
CLRF R0+0
GOTO L_end_mask
;sensor.c,108 :: case 9:
L_mask24:
;sensor.c,109 :: return 0x10; // 9;
MOVLW 16
MOVWF R0+0
GOTO L_end_mask
;sensor.c,110 :: case 10:
L_mask25:
;sensor.c,111 :: return 0xBF; // Symbol '-'
MOVLW 191
MOVWF R0+0
GOTO L_end_mask
;sensor.c,112 :: case 11:
L_mask26:
;sensor.c,113 :: return 0x9E; // Symbol C
MOVLW 158
MOVWF R0+0
GOTO L_end_mask
;sensor.c,114 :: case 12:
L_mask27:
;sensor.c,115 :: return 0xFF; // Blank
MOVLW 255
MOVWF R0+0
GOTO L_end_mask
;sensor.c,116 :: } //case end
L_mask13:
MOVF FARG_mask_num+0, 0
XORLW 0
BTFSC STATUS+0, 2
GOTO L_mask15
MOVF FARG_mask_num+0, 0
XORLW 1
BTFSC STATUS+0, 2
GOTO L_mask16
MOVF FARG_mask_num+0, 0
XORLW 2
BTFSC STATUS+0, 2
GOTO L_mask17
MOVF FARG_mask_num+0, 0
XORLW 3
BTFSC STATUS+0, 2
GOTO L_mask18
MOVF FARG_mask_num+0, 0
XORLW 4
BTFSC STATUS+0, 2
GOTO L_mask19
MOVF FARG_mask_num+0, 0
XORLW 5
BTFSC STATUS+0, 2
GOTO L_mask20
MOVF FARG_mask_num+0, 0
XORLW 6
BTFSC STATUS+0, 2
GOTO L_mask21
MOVF FARG_mask_num+0, 0
XORLW 7
BTFSC STATUS+0, 2
GOTO L_mask22
MOVF FARG_mask_num+0, 0
XORLW 8
BTFSC STATUS+0, 2
GOTO L_mask23
MOVF FARG_mask_num+0, 0
XORLW 9
BTFSC STATUS+0, 2
GOTO L_mask24
MOVF FARG_mask_num+0, 0
XORLW 10
BTFSC STATUS+0, 2
GOTO L_mask25
MOVF FARG_mask_num+0, 0
XORLW 11
BTFSC STATUS+0, 2
GOTO L_mask26
MOVF FARG_mask_num+0, 0
XORLW 12
BTFSC STATUS+0, 2
GOTO L_mask27
;sensor.c,117 :: }
L_end_mask:
RETURN
; end of _mask
_display_temp:
;sensor.c,118 :: void display_temp(short DD0, short DD1)
;sensor.c,120 :: for (i = 0; i <= 4; i++)
CLRF _i+0
L_display_temp28:
MOVF _i+0, 0
SUBLW 4
BTFSS STATUS+0, 0
GOTO L_display_temp29
;sensor.c,122 :: PORTB = DD0;
MOVF FARG_display_temp_DD0+0, 0
MOVWF PORTB+0
;sensor.c,123 :: RA0_bit = 0;
BCF RA0_bit+0, BitPos(RA0_bit+0)
;sensor.c,124 :: RA1_bit = 1;
BSF RA1_bit+0, BitPos(RA1_bit+0)
;sensor.c,125 :: delay_ms(2);
MOVLW 3
MOVWF R12+0
MOVLW 151
MOVWF R13+0
L_display_temp31:
DECFSZ R13+0, 1
GOTO L_display_temp31
DECFSZ R12+0, 1
GOTO L_display_temp31
NOP
NOP
;sensor.c,126 :: PORTB = DD1;
MOVF FARG_display_temp_DD1+0, 0
MOVWF PORTB+0
;sensor.c,127 :: RA0_bit = 1;
BSF RA0_bit+0, BitPos(RA0_bit+0)
;sensor.c,128 :: RA1_bit = 0;
BCF RA1_bit+0, BitPos(RA1_bit+0)
;sensor.c,129 :: delay_ms(2);
MOVLW 3
MOVWF R12+0
MOVLW 151
MOVWF R13+0
L_display_temp32:
DECFSZ R13+0, 1
GOTO L_display_temp32
DECFSZ R12+0, 1
GOTO L_display_temp32
NOP
NOP
;sensor.c,120 :: for (i = 0; i <= 4; i++)
INCF _i+0, 1
;sensor.c,130 :: }
GOTO L_display_temp28
L_display_temp29:
;sensor.c,131 :: return;
;sensor.c,132 :: }
L_end_display_temp:
RETURN
; end of _display_temp
_DS18B20:
;sensor.c,133 :: void DS18B20()
;sensor.c,135 :: Ow_Reset(&PORTB, 7); // Onewire reset signal
MOVLW PORTB+0
MOVWF FARG_Ow_Reset_port+0
MOVLW 7
MOVWF FARG_Ow_Reset_pin+0
CALL _Ow_Reset+0
;sensor.c,136 :: Ow_Write(&PORTB, 7, 0xCC); // Issue command SKIP_ROM
MOVLW PORTB+0
MOVWF FARG_Ow_Write_port+0
MOVLW 7
MOVWF FARG_Ow_Write_pin+0
MOVLW 204
MOVWF FARG_Ow_Write_data_+0
CALL _Ow_Write+0
;sensor.c,137 :: Ow_Write(&PORTB, 7, 0x44); // Issue command CONVERT_T
MOVLW PORTB+0
MOVWF FARG_Ow_Write_port+0
MOVLW 7
MOVWF FARG_Ow_Write_pin+0
MOVLW 68
MOVWF FARG_Ow_Write_data_+0
CALL _Ow_Write+0
;sensor.c,138 :: Ow_Reset(&PORTB, 7);
MOVLW PORTB+0
MOVWF FARG_Ow_Reset_port+0
MOVLW 7
MOVWF FARG_Ow_Reset_pin+0
CALL _Ow_Reset+0
;sensor.c,139 :: Ow_Write(&PORTB, 7, 0xCC); // Issue command SKIP_ROM
MOVLW PORTB+0
MOVWF FARG_Ow_Write_port+0
MOVLW 7
MOVWF FARG_Ow_Write_pin+0
MOVLW 204
MOVWF FARG_Ow_Write_data_+0
CALL _Ow_Write+0
;sensor.c,140 :: Ow_Write(&PORTB, 7, 0xBE); // Issue command READ_SCRATCHPAD
MOVLW PORTB+0
MOVWF FARG_Ow_Write_port+0
MOVLW 7
MOVWF FARG_Ow_Write_pin+0
MOVLW 190
MOVWF FARG_Ow_Write_data_+0
CALL _Ow_Write+0
;sensor.c,142 :: temp_value = Ow_Read(&PORTB, 7); // Read Byte 0 from Scratchpad
MOVLW PORTB+0
MOVWF FARG_Ow_Read_port+0
MOVLW 7
MOVWF FARG_Ow_Read_pin+0
CALL _Ow_Read+0
MOVF R0+0, 0
MOVWF _temp_value+0
CLRF _temp_value+1
;sensor.c,143 :: temp_value = (Ow_Read(&PORTB, 7) << 8) + temp_value; // Then read Byte 1 from
MOVLW PORTB+0
MOVWF FARG_Ow_Read_port+0
MOVLW 7
MOVWF FARG_Ow_Read_pin+0
CALL _Ow_Read+0
MOVF R0+0, 0
MOVWF R1+1
CLRF R1+0
MOVF R1+0, 0
ADDWF _temp_value+0, 1
MOVF R1+1, 0
BTFSC STATUS+0, 0
ADDLW 1
ADDWF _temp_value+1, 1
;sensor.c,146 :: if (temp_value & 0x8000)
BTFSS _temp_value+1, 7
GOTO L_DS18B2033
;sensor.c,148 :: temp_value = ~temp_value + 1;
COMF _temp_value+0, 1
COMF _temp_value+1, 1
INCF _temp_value+0, 1
BTFSC STATUS+0, 2
INCF _temp_value+1, 1
;sensor.c,149 :: N_Flag = 1; // Temp is -ive
MOVLW 1
MOVWF _N_Flag+0
;sensor.c,150 :: }
L_DS18B2033:
;sensor.c,151 :: if (temp_value & 0x0001)
BTFSS _temp_value+0, 0
GOTO L_DS18B2034
;sensor.c,152 :: temp_value += 1; // 0.5 round to 1
INCF _temp_value+0, 1
BTFSC STATUS+0, 2
INCF _temp_value+1, 1
L_DS18B2034:
;sensor.c,153 :: temp_value = temp_value >> 4; //<<< // 1 for DS1820 and
RRF _temp_value+1, 1
RRF _temp_value+0, 1
BCF _temp_value+1, 7
RRF _temp_value+1, 1
RRF _temp_value+0, 1
BCF _temp_value+1, 7
RRF _temp_value+1, 1
RRF _temp_value+0, 1
BCF _temp_value+1, 7
RRF _temp_value+1, 1
RRF _temp_value+0, 1
BCF _temp_value+1, 7
;sensor.c,155 :: if (N_Flag == 1) //Verifico que el valor de temperatura es negativo
MOVF _N_Flag+0, 0
XORLW 1
BTFSS STATUS+0, 2
GOTO L_DS18B2035
;sensor.c,157 :: temp_value = 0; //Seteo la temperatura en 0 grados
CLRF _temp_value+0
CLRF _temp_value+1
;sensor.c,158 :: }
L_DS18B2035:
;sensor.c,159 :: if (temp_value >= 99) //Verifico que el valor de temperatura es mayor a 99
MOVLW 0
SUBWF _temp_value+1, 0
BTFSS STATUS+0, 2
GOTO L__DS18B2047
MOVLW 99
SUBWF _temp_value+0, 0
L__DS18B2047:
BTFSS STATUS+0, 0
GOTO L_DS18B2036
;sensor.c,161 :: temp_value = 99; //Seteo la temperatura en 99 grados
MOVLW 99
MOVWF _temp_value+0
MOVLW 0
MOVWF _temp_value+1
;sensor.c,162 :: }
L_DS18B2036:
;sensor.c,163 :: }
L_end_DS18B20:
RETURN
; end of _DS18B20
_presionBoton:
;sensor.c,164 :: unsigned short presionBoton(unsigned short pin) //Verifica si se presiona o suelta el boton
;sensor.c,166 :: int pulso = 0;
CLRF presionBoton_pulso_L0+0
CLRF presionBoton_pulso_L0+1
CLRF presionBoton_oldstate_L0+0
CLRF presionBoton_oldstate_L0+1
;sensor.c,168 :: pulso = Button(&PORTA, pin, 100, 1);
MOVLW PORTA+0
MOVWF FARG_Button_port+0
MOVF FARG_presionBoton_pin+0, 0
MOVWF FARG_Button_pin+0
MOVLW 100
MOVWF FARG_Button_time_ms+0
MOVLW 1
MOVWF FARG_Button_active_state+0
CALL _Button+0
MOVF R0+0, 0
MOVWF presionBoton_pulso_L0+0
CLRF presionBoton_pulso_L0+1
;sensor.c,169 :: if (pulso != 0)
MOVLW 0
XORWF presionBoton_pulso_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__presionBoton49
MOVLW 0
XORWF presionBoton_pulso_L0+0, 0
L__presionBoton49:
BTFSC STATUS+0, 2
GOTO L_presionBoton37
;sensor.c,171 :: oldstate = 1;
MOVLW 1
MOVWF presionBoton_oldstate_L0+0
MOVLW 0
MOVWF presionBoton_oldstate_L0+1
;sensor.c,172 :: }
L_presionBoton37:
;sensor.c,173 :: while (pulso == 1)
L_presionBoton38:
MOVLW 0
XORWF presionBoton_pulso_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__presionBoton50
MOVLW 1
XORWF presionBoton_pulso_L0+0, 0
L__presionBoton50:
BTFSS STATUS+0, 2
GOTO L_presionBoton39
;sensor.c,175 :: pulso = Button(&PORTA, pin, 100, 1);
MOVLW PORTA+0
MOVWF FARG_Button_port+0
MOVF FARG_presionBoton_pin+0, 0
MOVWF FARG_Button_pin+0
MOVLW 100
MOVWF FARG_Button_time_ms+0
MOVLW 1
MOVWF FARG_Button_active_state+0
CALL _Button+0
MOVF R0+0, 0
MOVWF presionBoton_pulso_L0+0
CLRF presionBoton_pulso_L0+1
;sensor.c,176 :: }
GOTO L_presionBoton38
L_presionBoton39:
;sensor.c,177 :: if (oldstate == 1)
MOVLW 0
XORWF presionBoton_oldstate_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__presionBoton51
MOVLW 1
XORWF presionBoton_oldstate_L0+0, 0
L__presionBoton51:
BTFSS STATUS+0, 2
GOTO L_presionBoton40
;sensor.c,179 :: return pin;
MOVF FARG_presionBoton_pin+0, 0
MOVWF R0+0
GOTO L_end_presionBoton
;sensor.c,180 :: }
L_presionBoton40:
;sensor.c,183 :: return 0;
CLRF R0+0
;sensor.c,185 :: }
L_end_presionBoton:
RETURN
; end of _presionBoton