انا متشكرة جدااااااا على التعاون السريع
بس انا عمل البرنامج وكنت محتاجة حد يشوفلى ايه الغلط فى الجزء انه ليه مش بيخزن القيمة الجديدة فى eeprom
ولك جزيل الشكر انا هبعت البرنامج ومحتاجة حد يساعدنى ايه اللى فيه غلط
char kp,i ,curX, curY =0;
unsigned char key_scan();
unsigned char user0;
unsigned char user1;
unsigned char user2;
unsigned char take0;
unsigned char take1;
unsigned char take2;
unsigned char *text="HI ";
unsigned char *text1="ENTER PASSWORD";
unsigned char *text2="OPENING........";
unsigned char *text3="wrong passward";
unsigned char *text4="not change pass";
unsigned char EEPROMwrite();
char keypadPort at PORTD;
sbit LCD_RS at RB4_bit;
sbit LCD_EN at RB5_bit;
sbit LCD_D4 at RB0_bit;
sbit LCD_D5 at RB1_bit;
sbit LCD_D6 at RB2_bit;
sbit LCD_D7 at RB3_bit;
sbit LCD_RS_Direction at TRISB4_bit;
sbit LCD_EN_Direction at TRISB5_bit;
sbit LCD_D4_Direction at TRISB0_bit;
sbit LCD_D5_Direction at TRISB1_bit;
sbit LCD_D6_Direction at TRISB2_bit;
sbit LCD_D7_Direction at TRISB3_bit;
void Move_Delay() { // Function used for text moving
Delay_ms(50); // You can change the moving speed here
}
void main() {
EECON1=0;
EEPROM_Write(0x50,3); // Write some data at address 0150
EEPROM_Write(0x51,7);
EEPROM_Write(0x52,1);
EEPROM_Write(0x53,9);
EEPROM_Write(0x54,8);
EEPROM_Write(0x55,8);
Delay_ms(1000);
take0= EEPROM_Read(0x50);
take1 = EEPROM_Read(0x51);
take2 = EEPROM_Read(0x52);
Keypad_Init(); // Initialize Keypad
Lcd_Init(); // Initialize Lcd
Lcd_Cmd(_LCD_CLEAR); // Clear display
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Cmd(_LCD_SECOND_ROW);
Lcd_Out(1,8,text);
Delay_ms(100);
xx:
Lcd_Out(1,2,text1);
Lcd_Out(2,4,":");
Lcd_Out(2, 6, " ");
do {
kp = 0; // Reset key code variable
// Wait for key to be pressed and released
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
user0 = kp-48;
Lcd_Chr(2, 6, kp);
Delay_ms(100);
Lcd_Out(2,6,"*");
// Moving text
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2, 7, " ");
do {
kp = 0; // Reset key code variable
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
user1 = kp-48;
Lcd_Chr(2, 7, kp);
Delay_ms(100);
Lcd_Out(2,7,"*");
// Moving text
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2,8, " ");
do {
kp = 0; // Reset key code variable
// Wait for key to be pressed and released
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
user2 = kp-48;
Lcd_Chr(2, 8, kp); // Print key ASCII value on Lcd
Delay_ms(100);
Lcd_Out(2,8,"*");
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2, 9, " ");
Delay_ms(1000);
if(take0==user0&&take1==user1&&take2==user2
)
{
Lcd_Out(1,1,text2);
}
else
{
Lcd_Out(1,1,text3);
Delay_ms(2000);
Lcd_Cmd(_LCD_CLEAR);
goto xx;
}
}
PORTC=0;
if (PORTC.F2 =0)
{
goto ee;
}
else {
Lcd_Out(1,2,text4);
}
ee:
Lcd_Out(1,2,text1);
Lcd_Out(2,4,":");
Lcd_Out(2, 6, " ");
do {
kp = 0; // Reset key code variable
// Wait for key to be pressed and released
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
//case 10: kp = 42; break; // '*' // Uncomment this block for keypad4x3
//case 11: kp = 48; break; // '0'
//case 12: kp = 35; break; // '#'
//default: kp += 48;
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
kp-48;
EEPROM_Write(0x50,kp-48); // Write some data at address 0150
Lcd_Chr(2, 6, kp);
Delay_us(1);
Lcd_Out(2,6,"*");
// Moving text
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2,7, " ");
do {
kp = 0; // Reset key code variable
// Wait for key to be pressed and released
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
//case 10: kp = 42; break; // '*' // Uncomment this block for keypad4x3
//case 11: kp = 48; break; // '0'
//case 12: kp = 35; break; // '#'
//default: kp += 48;
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
kp-48;
EEPROM_Write(0x51,kp-48);
Lcd_Chr(2, 7, kp);
Delay_us(1);
Lcd_Out(2,7,"*");
// Moving text
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2,8, " ");
do {
kp = 0; // Reset key code variable
// Wait for key to be pressed and released
do
//kp = Keypad_Key_Press(); // Store key code in kp variable
kp = Keypad_Key_Click(); // Store key code in kp variable
while (!kp);
// Prepare value for output, transform key to it's ASCII value
switch (kp) {
//case 10: kp = 42; break; // '*' // Uncomment this block for keypad4x3
//case 11: kp = 48; break; // '0'
//case 12: kp = 35; break; // '#'
//default: kp += 48;
case 1: kp = 49; break; // 1 // Uncomment this block for keypad4x4
case 2: kp = 50; break; // 2
case 3: kp = 51; break; // 3
case 4: kp = 65; break; // A
case 5: kp = 52; break; // 4
case 6: kp = 53; break; // 5
case 7: kp = 54; break; // 6
case 8: kp = 66; break; // B
case 9: kp = 55; break; // 7
case 10: kp = 56; break; // 8
case 11: kp = 57; break; // 9
case 12: kp = 67; break; // C
case 13: kp = 42; break; // *
case 14: kp = 48; break; // 0
case 15: kp = 35; break; // #
case 16: kp = 68; break; // D
}
kp-48;
EEPROM_Write(0x52,kp-48);
Lcd_Chr(2, 8, kp);
Delay_us(1);
Lcd_Out(2,8,"*");
// Moving text
for(i=0; i<6; i++) { // Move text to the right 4 times
Lcd_Cmd(_LCD_MOVE_CURSOR_RIGHT);
Lcd_Cmd(_LCD_BLINK_CURSOR_ON);
Move_Delay();
Lcd_Cmd(_LCD_CURSOR_OFF);
Lcd_Out(2,9, " ");
}
} while (1);
}
} while (1);
}
} while (1);
} while (1);
} while (1);
}while (1);
}
} while (1);
}
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mikroc_pro pic
