proj

ES/Project/code-without-7seg.c

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+#include <LPC17xx.h>
+#include <stdbool.h>
+
+/* ===================================================
+ * SMART MULTI-BASE CALCULATOR — LPC1768
+ * Supports BIN, BASE4, OCT, DEC, HEX with
+ * keypad and LCD (no 7-segment).
+ *
+ * Features:
+ *  • SysTick 1 ms hardware timing
+ *  • HEX: double MODE press <2 s → operator mode
+ *  • Signed decimal arithmetic; modular in other bases
+ * ===================================================
+ */
+
+/* ===== Pin & Mode Defines ===== */
+#define COL_BASE 15
+#define ROW_BASE 19
+#define COL_MASK (0x0F << COL_BASE)
+#define ROW_MASK (0x0F << ROW_BASE)
+
+#define LCD_DATA_SHIFT 23
+#define LCD_DATA_MASK (0x0F << LCD_DATA_SHIFT)
+#define LCD_RS (1 << 27)
+#define LCD_EN (1 << 28)
+
+#define MODE_BUTTON (1 << 12)
+
+/* Modes / Bases */
+#define MODE_BIN   2
+#define MODE_BASE4 4
+#define MODE_OCT   8
+#define MODE_DEC   10
+#define MODE_HEX   16
+
+/* Operators */
+#define OP_NONE 0
+#define OP_ADD  1
+#define OP_SUB  2
+#define OP_MUL  3
+#define OP_CLR  4
+#define OP_RES  5
+
+/* ===== Globals ===== */
+int input_num, stored_num, result;
+unsigned int operation;
+unsigned int current_base;
+
+unsigned char hex_op_mode;
+unsigned char result_displayed;
+
+unsigned int key, last_key, stable;
+unsigned int button_state, last_button_state, button_stable;
+
+unsigned long last_mode_press_time;
+
+/* ===== System tick counter ===== */
+volatile unsigned long sys_millis = 0;
+
+/* ===== Forward Declarations ===== */
+void delay(volatile unsigned int d);
+void lcd_delay(unsigned long r);
+void lcd_write_nibble(unsigned char nibble, unsigned char is_data);
+void lcd_cmd(unsigned char cmd);
+void lcd_data(unsigned char data);
+void lcd_init(void);
+void lcd_print_str(const char *s);
+void lcd_print_num(int num, unsigned int base);
+void display_mode(void);
+void display_input(void);
+void display_result(void);
+unsigned int scan_keypad(void);
+unsigned int scan_mode_button(void);
+unsigned int is_valid_digit(unsigned int key);
+void change_mode(void);
+void handle_mode_button(void);
+void operate(unsigned int op);
+void perform_operation(void);
+unsigned char is_operator_active(unsigned int key);
+int base_arith(int a, int b, unsigned int op, unsigned int base);
+unsigned long millis(void);
+
+/* =================================================== */
+/* ===== Implementation                               */
+/* =================================================== */
+
+void delay(volatile unsigned int d){ while(d--) __NOP(); }
+void lcd_delay(unsigned long r){ volatile unsigned long i; for(i=0;i<r;i++); }
+
+/* ---- SysTick (1 ms) ---- */
+void SysTick_Handler(void){ sys_millis++; }
+unsigned long millis(void){ return sys_millis; }
+
+/* ---- LCD primitives ---- */
+void lcd_write_nibble(unsigned char nibble, unsigned char is_data){
+    unsigned long temp = (nibble & 0x0F) << LCD_DATA_SHIFT;
+    LPC_GPIO0->FIOPIN = (LPC_GPIO0->FIOPIN & ~LCD_DATA_MASK) | temp;
+    if(is_data) LPC_GPIO0->FIOSET = LCD_RS; else LPC_GPIO0->FIOCLR = LCD_RS;
+    LPC_GPIO0->FIOSET = LCD_EN; lcd_delay(100);
+    LPC_GPIO0->FIOCLR = LCD_EN; lcd_delay(250000);
+}
+void lcd_cmd(unsigned char c){ lcd_write_nibble(c>>4,0); lcd_write_nibble(c,0); }
+void lcd_data(unsigned char d){ lcd_write_nibble(d>>4,1); lcd_write_nibble(d,1); }
+
+void lcd_init(void){
+    lcd_delay(5000000);
+    lcd_write_nibble(0x03,0); lcd_delay(500000);
+    lcd_write_nibble(0x03,0); lcd_delay(500000);
+    lcd_write_nibble(0x03,0); lcd_delay(500000);
+    lcd_write_nibble(0x02,0); lcd_delay(500000);
+    lcd_cmd(0x28); lcd_cmd(0x0C); lcd_cmd(0x01); lcd_delay(500000); lcd_cmd(0x06);
+}
+
+void lcd_print_str(const char *s){ while(*s) lcd_data(*s++); }
+
+void lcd_print_num(int num, unsigned int base){
+    char buf[17]; int i=0; unsigned int unum;
+
+    if(base==MODE_DEC && num<0){ lcd_data('-'); num=-num; }
+    unum=(unsigned int)num;
+    if(unum==0){ lcd_data('0'); return; }
+
+    while(unum>0 && i<16){
+        unsigned int d=unum%base;
+        buf[i++]=(d<10)?('0'+d):('A'+d-10);
+        unum/=base;
+    }
+    while(i>0) lcd_data(buf[--i]);
+}
+
+/* ---- Display helpers ---- */
+void display_mode(void){
+    lcd_cmd(0x80);
+    lcd_print_str("Mode: ");
+    if(current_base==MODE_BIN) lcd_print_str("BIN   ");
+    else if(current_base==MODE_BASE4) lcd_print_str("BASE4 ");
+    else if(current_base==MODE_OCT) lcd_print_str("OCT   ");
+    else if(current_base==MODE_DEC) lcd_print_str("DEC   ");
+    else { lcd_print_str("HEX");
+           if(hex_op_mode) lcd_print_str("[OPS]");
+           else lcd_print_str("    "); }
+}
+
+void display_input(void){
+    lcd_cmd(0xC0);
+    lcd_print_str("Input: ");
+    lcd_print_num(input_num,current_base);
+    lcd_print_str("      ");
+}
+
+void display_result(void){
+    lcd_cmd(0xC0);
+    lcd_print_str("Result: ");
+    lcd_print_num(result,current_base);
+    lcd_print_str("      ");
+}
+
+/* ---- Keypad scanning ---- */
+unsigned int scan_keypad(void){
+    unsigned int col,row,row_bits;
+    for(col=0;col<4;col++){
+        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;
+        if(row_bits!=0x0F){
+            for(row=0;row<4;row++)
+                if(!(row_bits&(1<<row))){ LPC_GPIO0->FIOSET=COL_MASK; return col*4+row; }
+        }
+    }
+    LPC_GPIO0->FIOSET=COL_MASK;
+    return 0xFF;
+}
+
+/* ---- MODE button ---- */
+unsigned int scan_mode_button(void){
+    return ((LPC_GPIO2->FIOPIN&MODE_BUTTON)==0)?1:0;
+}
+
+void change_mode(void){
+    if(current_base==MODE_DEC) current_base=MODE_BIN;
+    else if(current_base==MODE_BIN) current_base=MODE_BASE4;
+    else if(current_base==MODE_BASE4) current_base=MODE_OCT;
+    else if(current_base==MODE_OCT) current_base=MODE_HEX;
+    else current_base=MODE_DEC;
+
+    input_num=stored_num=result=0;
+    operation=OP_NONE; result_displayed=0;
+    display_mode(); display_input();
+}
+
+/* ---- Double-press / mode handler ---- */
+void handle_mode_button(void){
+    unsigned long now=millis();
+    if(button_stable==3 && button_state==1){
+        if(current_base==MODE_HEX){
+            if((now-last_mode_press_time)<2000){
+                hex_op_mode=!hex_op_mode;
+                display_mode(); last_mode_press_time=0;
+            } else last_mode_press_time=now;
+        } else change_mode();
+    }
+}
+
+/* ---- Validation ---- */
+unsigned int is_valid_digit(unsigned int key){
+    if(key>=16) return 0;
+    if(current_base==MODE_BIN   && key>=2)  return 0;
+    if(current_base==MODE_BASE4 && key>=4)  return 0;
+    if(current_base==MODE_OCT   && key>=8)  return 0;
+    if(current_base==MODE_DEC   && key>=10) return 0;
+    return 1;
+}
+
+/* ---- Arithmetic core ---- */
+int base_arith(int a,int b,unsigned int op,unsigned int base){
+    int r=0;
+    switch(op){
+        case OP_ADD: r=a+b; break;
+        case OP_SUB: r=a-b; break;
+        case OP_MUL: r=a*b; break;
+        default: r=a; break;
+    }
+
+    if(base!=MODE_DEC){           /* wrap-around for others */
+        if(r<0) r=((r%base)+base)%base;
+        else    r%= (base*base*base*base);  /* loose limit */
+    }
+    return r;
+}
+
+/* ---- Operator control ---- */
+void operate(unsigned int op){ stored_num=input_num; input_num=0; operation=op; result_displayed=0; }
+void perform_operation(void){
+    result=base_arith(stored_num,input_num,operation,current_base);
+    display_result();
+    input_num=result; operation=OP_NONE; result_displayed=1;
+}
+
+unsigned char is_operator_active(unsigned int key){
+    if(key>=11 && key<=15){
+        if(current_base==MODE_HEX) return hex_op_mode;
+        else return 1;
+    }
+    return 0;
+}
+
+/* =================================================== */
+/* ===================== MAIN ======================== */
+/* =================================================== */
+int main(void){
+    current_base=MODE_DEC;
+    input_num=stored_num=result=0;
+    operation=OP_NONE; result_displayed=0;
+    key=last_key=0xFF; stable=0;
+    button_stable=0; button_state=last_button_state=0;
+    hex_op_mode=0; last_mode_press_time=0;
+
+    SystemCoreClockUpdate();
+    SysTick_Config(SystemCoreClock/1000);   // 1 ms tick
+
+    /* GPIO mux: make pins GPIO */
+    LPC_PINCON->PINSEL0=0; LPC_PINCON->PINSEL1=0;
+    LPC_PINCON->PINSEL3=0; LPC_PINCON->PINSEL4=0;
+    LPC_PINCON->PINSEL0 &= ~0xFFF00000;     // P0.4–P0.11 as GPIO
+
+    /* Directions: keypad columns out, rows in; LCD pins out; MODE button in */
+    LPC_GPIO0->FIODIR |= COL_MASK | LCD_DATA_MASK | LCD_RS | LCD_EN;
+    LPC_GPIO0->FIODIR &= ~ROW_MASK;
+    LPC_GPIO0->FIOSET  = COL_MASK;
+
+    LPC_GPIO2->FIODIR &= ~MODE_BUTTON;
+
+    lcd_init(); display_mode(); display_input();
+
+    while(1){
+        key=scan_keypad();
+        button_state=scan_mode_button();
+
+        if(key==last_key) stable=(stable<5)?stable+1:stable;
+        else{ last_key=key; stable=0; }
+
+        if(button_state==last_button_state)
+            button_stable=(button_stable<5)?button_stable+1:button_stable;
+        else{ last_button_state=button_state; button_stable=0; }
+
+        handle_mode_button();
+
+        if(stable==3 && key!=0xFF){
+            if(is_operator_active(key)){
+                switch(key){
+                    case 11: operate(OP_ADD); display_input(); break;
+                    case 12: input_num=stored_num=result=0;
+                             operation=OP_NONE; display_input(); break;
+                    case 13: operate(OP_SUB); display_input(); break;
+                    case 14: operate(OP_MUL); display_input(); break;
+                    case 15: perform_operation(); break;
+                }
+            } else if(is_valid_digit(key)){
+                result_displayed=0;
+                input_num=input_num*current_base+key;
+                display_input();
+            }
+            stable=5;
+        }
+
+        /* Small idle delay; adjust as desired */
+        delay(3000);
+    }
+}