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sherlock 2025-10-29 12:22:35 +05:30
parent a6e0798ef4
commit 085c1023a6
1 changed files with 131 additions and 98 deletions
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229
ES/Project/code.c
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@ -25,14 +25,30 @@
* KEY FUNCTIONS:
* 0-9, A-F: Digit input (valid based on current base)
*
* OPERATOR MODE (Hold Key 0 + another key):
* Key 0 + B: Addition (+)
* Key 0 + C: Clear (C)
* Key 0 + D: Subtraction (-)
* Key 0 + E: Multiplication (*)
* Key 0 + F: Equals (=)
* OPERATOR KEYS:
* DEC/BIN/OCT modes (direct press):
* Key A: Addition (+)
* Key B: Subtraction (-)
* Key C: Multiplication (*)
* Key D: Equals (=)
* Key E: Clear (C)
*
* P2.12 Button: Mode selection (cycles: DEC->BIN->OCT->HEX)
* HEX mode (hold MODE + key):
* MODE + A: Addition (+)
* MODE + B: Subtraction (-)
* MODE + C: Multiplication (*)
* MODE + D: Equals (=)
* MODE + E: Clear (C)
*
* P2.12 Button:
* Short press: Mode selection (cycles: DEC->BIN->OCT->HEX)
* Hold + key (HEX mode only): Operator input
*
* 7-SEGMENT STATE DISPLAY:
* '1' - Input mode (entering numbers)
* '2' with DP - Operation pending (waiting for 2nd number)
* '3' with DP - Result ready (showing calculation result)
* '0' - Cleared/Reset state (fallback)
*/
// 7-Segment patterns
@ -71,13 +87,13 @@ const unsigned char seven_seg[16] = {
#define OP_SUB 2
#define OP_MUL 3
// Global variables - CHANGED to signed int
// Global variables
int input_num = 0;
int stored_num = 0;
int result = 0;
unsigned int current_base = MODE_DEC;
unsigned int operation = OP_NONE;
unsigned char lcd_flag = 0;
unsigned char result_displayed = 0;
void delay(volatile unsigned int d){
while(d--) __NOP();
@ -138,12 +154,10 @@ void lcd_print_str(const char* str){
}
}
// MODIFIED to handle negative numbers
void lcd_print_num(int num, unsigned int base){
char buffer[17];
int i = 0;
// For non-decimal bases, show as unsigned (two's complement representation)
if(base != MODE_DEC){
unsigned int unum = (unsigned int)num;
if(unum == 0){
@ -159,7 +173,6 @@ void lcd_print_num(int num, unsigned int base){
unum = unum / base;
}
} else {
// Decimal mode: handle negative with minus sign
if(num < 0){
lcd_data('-');
num = -num;
@ -194,21 +207,32 @@ void display_mode(void){
lcd_print_str("HEX ");
}
void display_input(void){
void display_status(void){
lcd_cmd(0xC0);
lcd_print_str("Inp: ");
lcd_print_num(input_num, current_base);
lcd_print_str(" ");
}
void display_operator_feedback(const char* op_symbol){
// Brief feedback on line 2
lcd_cmd(0xC0);
lcd_print_str("Op: ");
lcd_print_str(op_symbol);
lcd_print_str(" ");
delay(100000); // Brief delay to show feedback
display_input(); // Return to showing input
if(operation != OP_NONE){
// Show operation pending
lcd_print_str("Op:");
if(operation == OP_ADD) lcd_data('+');
else if(operation == OP_SUB) lcd_data('-');
else if(operation == OP_MUL) lcd_data('*');
lcd_print_str(" Val:");
lcd_print_num(stored_num, current_base);
lcd_print_str(" ");
}
else if(result_displayed){
// Show result
lcd_print_str("Res: ");
lcd_print_num(result, current_base);
lcd_print_str(" ");
}
else {
// Show current input
lcd_print_str("Inp: ");
lcd_print_num(input_num, current_base);
lcd_print_str(" ");
}
}
unsigned int scan_keypad(void){
@ -235,24 +259,7 @@ unsigned int scan_keypad(void){
return 0xFF;
}
// Check if Key 0 is currently pressed (shift key)
unsigned int is_key0_pressed(void){
unsigned int col = 0; // Key 0 is at column 0, row 0
unsigned int row_bits;
LPC_GPIO0->FIOSET = COL_MASK;
delay(50);
LPC_GPIO0->FIOCLR = (1 << (COL_BASE + col));
delay(200);
row_bits = (LPC_GPIO0->FIOPIN & ROW_MASK) >> ROW_BASE;
LPC_GPIO0->FIOSET = COL_MASK;
// Check if row 0 is pressed (Key 0)
return ((row_bits & 0x01) == 0) ? 1 : 0;
}
unsigned int scan_mode_button(void){
// Return 1 if button is pressed (active low), 0 if not pressed
unsigned int is_mode_button_pressed(void){
return ((LPC_GPIO2->FIOPIN & MODE_BUTTON) == 0) ? 1 : 0;
}
@ -261,7 +268,6 @@ unsigned int is_valid_digit(unsigned int key){
if(current_base == MODE_BIN && key >= 2) return 0;
if(current_base == MODE_OCT && key >= 8) return 0;
if(current_base == MODE_DEC && key >= 10) return 0;
// In HEX mode, all keys 0-15 are valid digits!
return 1;
}
@ -274,21 +280,29 @@ void change_mode(void){
current_base = MODE_HEX;
else
current_base = MODE_DEC;
input_num = 0;
stored_num = 0;
operation = OP_NONE;
result = 0;
result_displayed = 0;
display_mode();
display_status();
}
int main(void){
unsigned int key, last_key = 0xFF;
unsigned int stable = 0;
unsigned int button_state, last_button_state = 0;
unsigned int button_stable = 0;
unsigned int shift_active = 0;
unsigned int mode_held = 0;
unsigned int mode_press_counter = 0;
unsigned int key_pressed_with_mode = 0;
// Configure pins
LPC_PINCON->PINSEL0 = 0;
LPC_PINCON->PINSEL1 = 0;
LPC_PINCON->PINSEL3 = 0;
LPC_PINCON->PINSEL4 = 0; // Configure P2.12
LPC_PINCON->PINSEL4 = 0;
// Keypad: Columns output, Rows input
LPC_GPIO0->FIODIR |= COL_MASK;
@ -296,7 +310,7 @@ int main(void){
LPC_GPIO0->FIOSET = COL_MASK;
// Mode button: Input with internal pull-up
LPC_GPIO2->FIODIR &= ~MODE_BUTTON; // Set as input
LPC_GPIO2->FIODIR &= ~MODE_BUTTON;
// 7-Segment
LPC_GPIO0->FIODIR |= (0xFF << SEG_SHIFT);
@ -307,15 +321,14 @@ int main(void){
lcd_init();
display_mode();
display_input();
display_status();
for(;;){
// Check if shift key (Key 0) is being held
shift_active = is_key0_pressed();
// Check if MODE button is currently pressed
unsigned int mode_current = is_mode_button_pressed();
// Scan for other keys
// Scan keypad
key = scan_keypad();
button_state = scan_mode_button();
// Debounce keypad
if(key == last_key){
@ -325,54 +338,63 @@ int main(void){
stable = 0;
}
// Debounce mode button
if(button_state == last_button_state){
if(button_stable < 5) button_stable++;
// Track MODE button hold
if(mode_current){
mode_press_counter++;
mode_held = 1;
} else {
last_button_state = button_state;
button_stable = 0;
}
// Handle mode button press
if(button_stable == 3 && button_state == 1){
change_mode();
button_stable = 5; // Prevent multiple triggers
// MODE button released
if(mode_held && !key_pressed_with_mode && mode_press_counter < 50){
// Short press without key combo = change mode
change_mode();
}
mode_held = 0;
mode_press_counter = 0;
key_pressed_with_mode = 0;
}
// Handle keypad input
if(stable == 3 && key != 0xFF){
// Key pressed and stable
// If Key 0 is also pressed, we're in operator mode
if(shift_active && key != 0){
// OPERATOR MODE (Key 0 + another key)
// Check if this is an operator key (A-E)
int is_operator_key = (key >= 10 && key <= 14);
if(key == 11){ // Key 0 + B = Addition
// In HEX mode, operators require MODE button
// In other modes, operator keys work directly
int operator_mode = 0;
if(current_base == MODE_HEX){
operator_mode = (mode_held && is_operator_key);
} else {
operator_mode = is_operator_key;
}
if(operator_mode){
// OPERATOR INPUT
key_pressed_with_mode = 1;
if(key == 10){ // A = Addition
stored_num = input_num;
operation = OP_ADD;
input_num = 0;
display_operator_feedback("+");
result_displayed = 0;
display_status();
}
else if(key == 12){ // Key 0 + C = Clear
input_num = 0;
stored_num = 0;
operation = OP_NONE;
result = 0;
display_operator_feedback("CLR");
}
else if(key == 13){ // Key 0 + D = Subtraction
else if(key == 11){ // B = Subtraction
stored_num = input_num;
operation = OP_SUB;
input_num = 0;
display_operator_feedback("-");
result_displayed = 0;
display_status();
}
else if(key == 14){ // Key 0 + E = Multiplication
else if(key == 12){ // C = Multiplication
stored_num = input_num;
operation = OP_MUL;
input_num = 0;
display_operator_feedback("*");
result_displayed = 0;
display_status();
}
else if(key == 15){ // Key 0 + F = Equals
else if(key == 13){ // D = Equals
if(operation == OP_ADD)
result = stored_num + input_num;
else if(operation == OP_SUB)
@ -382,40 +404,51 @@ int main(void){
else
result = input_num;
lcd_cmd(0xC0);
lcd_print_str("Res: ");
lcd_print_num(result, current_base);
lcd_print_str(" ");
input_num = result;
operation = OP_NONE;
result_displayed = 1;
display_status();
}
else if(key == 14){ // E = Clear
input_num = 0;
stored_num = 0;
operation = OP_NONE;
result = 0;
result_displayed = 0;
display_status();
}
}
else {
// NORMAL MODE - Digit input
// DIGIT INPUT MODE
if(is_valid_digit(key)){
result_displayed = 0;
input_num = input_num * current_base + key;
// Handle overflow with wrap-around for signed int
if(input_num > 32767) input_num = input_num % 32768;
if(input_num < -32768) input_num = -32768;
display_input();
display_status();
}
}
stable = 5; // Prevent repeated triggers
}
// Display result on 7-segment (last digit only)
// MODIFIED: Use decimal point to indicate negative numbers
int display_value = (input_num < 0) ? -input_num : input_num;
unsigned int display_digit = display_value % 16;
unsigned int seg_pattern = seven_seg[display_digit];
// ===== STATE MACHINE DISPLAY ON 7-SEGMENT =====
unsigned int seg_pattern;
// Turn on decimal point if number is negative
if(input_num < 0){
seg_pattern |= 0x80; // Bit 7 is the decimal point
if(operation == OP_NONE && result_displayed == 0) {
seg_pattern = 0x06; // Display '1'
}
else if(operation != OP_NONE) {
seg_pattern = 0x5B | 0x80; // Display '2' with DP
}
else if(result_displayed == 1) {
seg_pattern = 0x4F | 0x80; // Display '3' with DP
}
else {
seg_pattern = 0x3F; // Display '0'
}
// Update the 7-segment display
LPC_GPIO0->FIOCLR = (0xFF << SEG_SHIFT);
LPC_GPIO0->FIOSET = (seg_pattern << SEG_SHIFT);
LPC_GPIO1->FIOSET = DIGIT_EN;