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avr128db48-basic-uart-comms.../basicUARTcomms_AVRDB.X/mcc_generated_files/system/src/pins.c

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/**
* Generated Driver File
*
* @file pins.c
*
* @ingroup pinsdriver
*
* @brief This is generated driver implementation for pins.
* This file provides implementations for pin APIs for all pins selected in the GUI.
*
* @version Driver Version 1.1.0
*/
/*
© [2023] Microchip Technology Inc. and its subsidiaries.
Subject to your compliance with these terms, you may use Microchip
software and any derivatives exclusively with Microchip products.
You are responsible for complying with 3rd party license terms
applicable to your use of 3rd party software (including open source
software) that may accompany Microchip software. SOFTWARE IS ?AS IS.?
NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS
SOFTWARE, INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT,
MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT
WILL MICROCHIP BE LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE,
INCIDENTAL OR CONSEQUENTIAL LOSS, DAMAGE, COST OR EXPENSE OF ANY
KIND WHATSOEVER RELATED TO THE SOFTWARE, HOWEVER CAUSED, EVEN IF
MICROCHIP HAS BEEN ADVISED OF THE POSSIBILITY OR THE DAMAGES ARE
FORESEEABLE. TO THE FULLEST EXTENT ALLOWED BY LAW, MICROCHIP?S
TOTAL LIABILITY ON ALL CLAIMS RELATED TO THE SOFTWARE WILL NOT
EXCEED AMOUNT OF FEES, IF ANY, YOU PAID DIRECTLY TO MICROCHIP FOR
THIS SOFTWARE.
*/
#include "../pins.h"
#include "../../uart/usart3.h"
static void (*IO_PB1_InterruptHandler)(void);
static void (*IO_PB0_InterruptHandler)(void);
static void (*SW0_InterruptHandler)(void);
static void (*LED_InterruptHandler)(void);
void PIN_MANAGER_Initialize()
{
/* DIR Registers Initialization */
PORTA.DIR = 0x0;
PORTB.DIR = 0x9;
PORTC.DIR = 0x0;
PORTD.DIR = 0x0;
PORTE.DIR = 0x0;
PORTF.DIR = 0x0;
/* OUT Registers Initialization */
PORTA.OUT = 0x0;
PORTB.OUT = 0x1;
PORTC.OUT = 0x0;
PORTD.OUT = 0x0;
PORTE.OUT = 0x0;
PORTF.OUT = 0x0;
/* PINxCTRL registers Initialization */
PORTA.PIN0CTRL = 0x0;
PORTA.PIN1CTRL = 0x0;
PORTA.PIN2CTRL = 0x0;
PORTA.PIN3CTRL = 0x0;
PORTA.PIN4CTRL = 0x0;
PORTA.PIN5CTRL = 0x0;
PORTA.PIN6CTRL = 0x0;
PORTA.PIN7CTRL = 0x0;
PORTB.PIN0CTRL = 0x0;
PORTB.PIN1CTRL = 0x0;
PORTB.PIN2CTRL = 0xB;
PORTB.PIN3CTRL = 0x0;
PORTB.PIN4CTRL = 0x0;
PORTB.PIN5CTRL = 0x0;
PORTB.PIN6CTRL = 0x0;
PORTB.PIN7CTRL = 0x0;
PORTC.PIN0CTRL = 0x0;
PORTC.PIN1CTRL = 0x0;
PORTC.PIN2CTRL = 0x0;
PORTC.PIN3CTRL = 0x0;
PORTC.PIN4CTRL = 0x0;
PORTC.PIN5CTRL = 0x0;
PORTC.PIN6CTRL = 0x0;
PORTC.PIN7CTRL = 0x0;
PORTD.PIN0CTRL = 0x0;
PORTD.PIN1CTRL = 0x0;
PORTD.PIN2CTRL = 0x0;
PORTD.PIN3CTRL = 0x0;
PORTD.PIN4CTRL = 0x0;
PORTD.PIN5CTRL = 0x0;
PORTD.PIN6CTRL = 0x0;
PORTD.PIN7CTRL = 0x0;
PORTE.PIN0CTRL = 0x0;
PORTE.PIN1CTRL = 0x0;
PORTE.PIN2CTRL = 0x0;
PORTE.PIN3CTRL = 0x0;
PORTE.PIN4CTRL = 0x0;
PORTE.PIN5CTRL = 0x0;
PORTE.PIN6CTRL = 0x0;
PORTE.PIN7CTRL = 0x0;
PORTF.PIN0CTRL = 0x0;
PORTF.PIN1CTRL = 0x0;
PORTF.PIN2CTRL = 0x0;
PORTF.PIN3CTRL = 0x0;
PORTF.PIN4CTRL = 0x0;
PORTF.PIN5CTRL = 0x0;
PORTF.PIN6CTRL = 0x0;
PORTF.PIN7CTRL = 0x0;
/* PORTMUX Initialization */
PORTMUX.ACROUTEA = 0x0;
PORTMUX.CCLROUTEA = 0x0;
PORTMUX.EVSYSROUTEA = 0x0;
PORTMUX.SPIROUTEA = 0x0;
PORTMUX.TCAROUTEA = 0x0;
PORTMUX.TCBROUTEA = 0x0;
PORTMUX.TCDROUTEA = 0x0;
PORTMUX.TWIROUTEA = 0x0;
PORTMUX.USARTROUTEA = 0x0;
PORTMUX.USARTROUTEB = 0x0;
PORTMUX.ZCDROUTEA = 0x0;
// register default ISC callback functions at runtime; use these methods to register a custom function
IO_PB1_SetInterruptHandler(IO_PB1_DefaultInterruptHandler);
IO_PB0_SetInterruptHandler(IO_PB0_DefaultInterruptHandler);
SW0_SetInterruptHandler(SW0_DefaultInterruptHandler);
LED_SetInterruptHandler(LED_DefaultInterruptHandler);
}
/**
Allows selecting an interrupt handler for IO_PB1 at application runtime
*/
void IO_PB1_SetInterruptHandler(void (* interruptHandler)(void))
{
IO_PB1_InterruptHandler = interruptHandler;
}
void IO_PB1_DefaultInterruptHandler(void)
{
// add your IO_PB1 interrupt custom code
// or set custom function using IO_PB1_SetInterruptHandler()
}
/**
Allows selecting an interrupt handler for IO_PB0 at application runtime
*/
void IO_PB0_SetInterruptHandler(void (* interruptHandler)(void))
{
IO_PB0_InterruptHandler = interruptHandler;
}
void IO_PB0_DefaultInterruptHandler(void)
{
// add your IO_PB0 interrupt custom code
// or set custom function using IO_PB0_SetInterruptHandler()
}
/**
Allows selecting an interrupt handler for SW0 at application runtime
*/
void SW0_SetInterruptHandler(void (* interruptHandler)(void))
{
SW0_InterruptHandler = interruptHandler;
}
void SW0_DefaultInterruptHandler(void)
{
// add your SW0 interrupt custom code
// or set custom function using SW0_SetInterruptHandler()
UART3_Write('S');
}
/**
Allows selecting an interrupt handler for LED at application runtime
*/
void LED_SetInterruptHandler(void (* interruptHandler)(void))
{
LED_InterruptHandler = interruptHandler;
}
void LED_DefaultInterruptHandler(void)
{
// add your LED interrupt custom code
// or set custom function using LED_SetInterruptHandler()
}
ISR(PORTA_PORT_vect)
{
/* Clear interrupt flags */
VPORTA.INTFLAGS = 0xff;
}
ISR(PORTB_PORT_vect)
{
// Call the interrupt handler for the callback registered at runtime
if(VPORTB.INTFLAGS & PORT_INT1_bm)
{
IO_PB1_InterruptHandler();
}
if(VPORTB.INTFLAGS & PORT_INT0_bm)
{
IO_PB0_InterruptHandler();
}
if(VPORTB.INTFLAGS & PORT_INT2_bm)
{
SW0_InterruptHandler();
}
if(VPORTB.INTFLAGS & PORT_INT3_bm)
{
LED_InterruptHandler();
}
/* Clear interrupt flags */
VPORTB.INTFLAGS = 0xff;
}
ISR(PORTC_PORT_vect)
{
/* Clear interrupt flags */
VPORTC.INTFLAGS = 0xff;
}
ISR(PORTD_PORT_vect)
{
/* Clear interrupt flags */
VPORTD.INTFLAGS = 0xff;
}
ISR(PORTE_PORT_vect)
{
/* Clear interrupt flags */
VPORTE.INTFLAGS = 0xff;
}
ISR(PORTF_PORT_vect)
{
/* Clear interrupt flags */
VPORTF.INTFLAGS = 0xff;
}
/**
End of File
*/
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