/*****************************************************
This program was produced by the
CodeWizardAVR V2.05.3 Standard
Automatic Program Generator
© Copyright 1998-2011 Pavel Haiduc, HP InfoTech s.r.l.
http://www.hpinfotech.com

Project : 
Version : 
Date  : 6/25/2014
Author : PerTic@n
Company : If You Like This Software,Buy It
Comments: 


Chip type        : ATmega32A
Program type      : Application
AVR Core Clock frequency: 8.000000 MHz
Memory model      : Small
External RAM size    : 0
Data Stack size     : 512
*****************************************************/
#define LCD_RST_DDR DDRB
#define LCD_RST_PORT PORTB
#define LCD_RST_PIN 0
#define LCD_RS_DDR DDRB
#define LCD_RS_PORT PORTB
#define LCD_RS_PIN 1
#define LCD_CS_DDR DDRB
#define LCD_CS_PORT PORTB
#define LCD_CS_PIN 2
#define LCD_RD_DDR DDRB
#define LCD_RD_PORT PORTB
#define LCD_RD_PIN 3
#define LCD_WR_DDR DDRB
#define LCD_WR_PORT PORTB
#define LCD_WR_PIN 4
#define LCD_DATAPORT_MSB_DDR DDRD
#define LCD_DATAPORT_MSB_PORT PORTD
#define LCD_DATAPORT_MSB_PIN PIND
#define LCD_DATAPORT_LSB_DDR DDRC
#define LCD_DATAPORT_LSB_PORT PORTC
#define LCD_DATAPORT_LSB_PIN PINC 
 
#define LCD_CONTROLPORT_DDR DDRB
#define LCD_CONTROLPORT_PORT PORTB
#define LCD_CONTROLPORT_PIN PINB
#define PORTRAIT
#include <mega32a.h>
#include <tftlcd_functions.h>
#include <delay.h>
#include <stdlib.h>
#include <stdio.h>
#define saddress 5
// I2C Bus functions
#include <i2c.h>

#define ADC_VREF_TYPE 0x40

int a,b,c=0,d=0,x1;
char lcd_buffer[20];

// Read the AD conversion result
unsigned int read_adc(unsigned char adc_input)
{
ADMUX=adc_input | (ADC_VREF_TYPE & 0xff);
// Delay needed for the stabilization of the ADC input voltage
delay_us(10);
// Start the AD conversion
ADCSRA|=0x40;
// Wait for the AD conversion to complete
while ((ADCSRA & 0x10)==0);
ADCSRA|=0x10;
return ADCW;
}
int x (void)
{
DDRA.0=1;
PORTA.0=1;
DDRA.2=1;
PORTA.2=0;
DDRA.3=0;
PORTA.3=0;
DDRA.1=0;
a=read_adc(1);
delay_ms(30);
return a;
}
int y (void)
{
DDRA.0=0;
PORTA.0=0;
DDRA.1=1;
PORTA.1=1;
DDRA.3=1;
PORTA.3=0;
DDRA.2=0;
b=read_adc(2);
delay_ms(30);
return b;
}
// Declare your global variables here

void main(void)
{
// Declare your local variables here

// Input/Output Ports initialization
// Port A initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In 
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T 
PORTA=0x00;
DDRA=0x10;

// Port B initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In 
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T 
PORTB=0x00;
DDRB=0x00;

// Port C initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In 
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T 
PORTC=0x00;
DDRC=0x00;

// Port D initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In 
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T 
PORTD=0x00;
DDRD=0x00;

// Timer/Counter 0 initialization
// Clock source: System Clock
// Clock value: Timer 0 Stopped
// Mode: Normal top=0xFF
// OC0 output: Disconnected
TCCR0=0x00;
TCNT0=0x00;
OCR0=0x00;

// Timer/Counter 1 initialization
// Clock source: System Clock
// Clock value: Timer1 Stopped
// Mode: Normal top=0xFFFF
// OC1A output: Discon.
// OC1B output: Discon.
// Noise Canceler: Off
// Input Capture on Falling Edge
// Timer1 Overflow Interrupt: Off
// Input Capture Interrupt: Off
// Compare A Match Interrupt: Off
// Compare B Match Interrupt: Off
TCCR1A=0x00;
TCCR1B=0x00;
TCNT1H=0x00;
TCNT1L=0x00;
ICR1H=0x00;
ICR1L=0x00;
OCR1AH=0x00;
OCR1AL=0x00;
OCR1BH=0x00;
OCR1BL=0x00;

// Timer/Counter 2 initialization
// Clock source: System Clock
// Clock value: Timer2 Stopped
// Mode: Normal top=0xFF
// OC2 output: Disconnected
ASSR=0x00;
TCCR2=0x00;
TCNT2=0x00;
OCR2=0x00;

// External Interrupt(s) initialization
// INT0: Off
// INT1: Off
// INT2: Off
MCUCR=0x00;
MCUCSR=0x00;

// Timer(s)/Counter(s) Interrupt(s) initialization
TIMSK=0x00;

// USART initialization
// USART disabled
UCSRB=0x00;

// Analog Comparator initialization
// Analog Comparator: Off
// Analog Comparator Input Capture by Timer/Counter 1: Off
ACSR=0x80;
SFIOR=0x00;

// ADC initialization
// ADC Clock frequency: 1000.000 kHz
// ADC Voltage Reference: AVCC pin
ADMUX=ADC_VREF_TYPE & 0xff;
ADCSRA=0x83;

// SPI initialization
// SPI disabled
SPCR=0x00;

// TWI initialization
// TWI disabled
TWCR=0x00;

// I2C Bus initialization
// I2C Port: PORTB
// I2C SDA bit: 6
// I2C SCL bit: 7
// Bit Rate: 100 kHz
// Note: I2C settings are specified in the
// Project|Configure|C Compiler|Libraries|I2C menu.
//i2c_init();
lcd_init();
lcd_background_color(BLACK);
lcd_gotoxy(1,4);
lcd_putsf("Shiva Akbari Melika Emami",RED,0,0);
delay_ms(2000);
lcd_background_color(BLUE);
lcd_draw_circle(120,160,100,1,RED);
lcd_gotoxy(12,9);
lcd_putsf("START",WHITE,RED,0); 

while(1){
c=x();
d=y();
lcd_gotoxy(13,18);
sprintf(lcd_buffer,"X=%d  ",c);
lcd_puts(lcd_buffer,YELLOW,0,0);
lcd_gotoxy(17,18);
sprintf(lcd_buffer," Y=%d  ",d);
lcd_puts(lcd_buffer,YELLOW,0,0); 

if((c>=30)&& (c<=80) && (d>=300) && (d<=600))
{
  
  PORTA.4=1;   
  //x1=1;  
}
else{
  PORTA.4=0;
 // x1=0;
  }
 /* i2c_start();
 i2c_write(saddress);
 i2c_write(x1);
 i2c_stop();*/
 delay_ms(1000); 
}
}