Test/ADC.c

/*
 * Author: username
 * Date: 2024 
 * filename: ADC.c
 * description: module_purpose
 */

#include "ADC.h"
#include "RegEdit.h"
#include "avr/io.h"


static bool IsInvalidPin(uint8_t pin_num){
    if(pin_num > 7){
        return true;
    }
    return false;
}


void ADC_Init(uint8_t pin_num)
{
    if(IsInvalidPin(pin_num)){return;}

    //set the direction to input 
    RegEdit_SetBit((void *) &PORTA.DIRCLR, pin_num);

    //Disable the pull-up resistor
    RegEdit_SetBit((void *) &PORTA.OUTCLR, pin_num); 
 
    //Disable input buffer
    //We do some kinda nasty address addition but it saves
    //memory and means we don't need a switch statment.
    //PORT_ISC_INPUT_DISABLE_gc
    RegEdit_SetBit(
            (void *) (&PORTA.PIN0CTRL)+pin_num,
            PORT_ISC_INPUT_DISABLE_gc
            );
            /*
    RegEdit_OR_Num(
            (void *) (&PORTA.PIN0CTRL)+pin_num,
            PORT_ISC_INPUT_DISABLE_gc
        );*/
 
    //Ensure we use full 10bit resolution 
    RegEdit_ClearBit((void *) &ADC0.CTRLA, 2);

    //Use VDD as our voltage refernce.
    RegEdit_SetBit((void *) &ADC0.CTRLC, 4);

}


void ADC_Enable(uint8_t pin_num)
{
    if(IsInvalidPin(pin_num)){return;}

    //Use muxpos to select pins for ADC to connect.
    RegEdit_OR_Num((void *) &ADC0.MUXPOS, pin_num);

    //Set the enable bit in the CTRLA register
    RegEdit_SetBit((void *) &ADC0.CTRLA, 0);
}


void ADC_Disable()
{
    //Set for no ADC connections.
    RegEdit_ClearRegister((void *) &ADC0.MUXPOS);

    //Clear the enable ADC flag
    RegEdit_ClearBit((void *) &ADC0.CTRLA, 0);
}


uint16_t ADC_ReadValue_Impl(uint8_t pin_num)
{
    RegEdit_SetNum((void *) &ADC0.COMMAND, ADC_STCONV_bm);

    /* Wait until ADC conversion done */
    //while ( !(ADC0.INTFLAGS & ADC_RESRDY_bm) )
    //while(!(RegEdit_IsBitSet((void *) &ADC0.INTFLAGS, ADC_RESSEL_bm)))
    while ( !(ADC0.INTFLAGS & ADC_RESRDY_bm) )
    {
        ;
    }
   
    /* Clear the interrupt flag by writing 1: */
    ADC0.INTFLAGS = ADC_RESRDY_bm;
 
    return (uint16_t) ADC0.RES;
}


//Set the default for the function pointer.
uint16_t (*ADC_ReadValue)(uint8_t pin_num) = ADC_ReadValue_Impl;
Converted the template unix project to mplabx 2024-07-02 00:53:09 +00:00			`/*`
			`* Author: username`
			`* Date: 2024`
			`* filename: ADC.c`
			`* description: module_purpose`
			`*/`

			`#include "ADC.h"`
			`#include "RegEdit.h"`
			`#include "avr/io.h"`


			`static bool IsInvalidPin(uint8_t pin_num){`
			`if(pin_num > 7){`
			`return true;`
			`}`
			`return false;`
			`}`


			`void ADC_Init(uint8_t pin_num)`
			`{`
			`if(IsInvalidPin(pin_num)){return;}`

			`//set the direction to input`
			`RegEdit_SetBit((void *) &PORTA.DIRCLR, pin_num);`

			`//Disable the pull-up resistor`
			`RegEdit_SetBit((void *) &PORTA.OUTCLR, pin_num);`

			`//Disable input buffer`
			`//We do some kinda nasty address addition but it saves`
			`//memory and means we don't need a switch statment.`
			`//PORT_ISC_INPUT_DISABLE_gc`
			`RegEdit_SetBit(`
			`(void *) (&PORTA.PIN0CTRL)+pin_num,`
			`PORT_ISC_INPUT_DISABLE_gc`
			`);`
			`/*`
			`RegEdit_OR_Num(`
			`(void *) (&PORTA.PIN0CTRL)+pin_num,`
			`PORT_ISC_INPUT_DISABLE_gc`
			`);*/`

			`//Ensure we use full 10bit resolution`
			`RegEdit_ClearBit((void *) &ADC0.CTRLA, 2);`

			`//Use VDD as our voltage refernce.`
			`RegEdit_SetBit((void *) &ADC0.CTRLC, 4);`

			`}`


			`void ADC_Enable(uint8_t pin_num)`
			`{`
			`if(IsInvalidPin(pin_num)){return;}`

			`//Use muxpos to select pins for ADC to connect.`
			`RegEdit_OR_Num((void *) &ADC0.MUXPOS, pin_num);`

			`//Set the enable bit in the CTRLA register`
			`RegEdit_SetBit((void *) &ADC0.CTRLA, 0);`
			`}`


			`void ADC_Disable()`
			`{`
			`//Set for no ADC connections.`
			`RegEdit_ClearRegister((void *) &ADC0.MUXPOS);`

			`//Clear the enable ADC flag`
			`RegEdit_ClearBit((void *) &ADC0.CTRLA, 0);`
			`}`


			`uint16_t ADC_ReadValue_Impl(uint8_t pin_num)`
			`{`
			`RegEdit_SetNum((void *) &ADC0.COMMAND, ADC_STCONV_bm);`

			`/* Wait until ADC conversion done */`
			`//while ( !(ADC0.INTFLAGS & ADC_RESRDY_bm) )`
			`//while(!(RegEdit_IsBitSet((void *) &ADC0.INTFLAGS, ADC_RESSEL_bm)))`
			`while ( !(ADC0.INTFLAGS & ADC_RESRDY_bm) )`
			`{`
			`;`
			`}`

			`/* Clear the interrupt flag by writing 1: */`
			`ADC0.INTFLAGS = ADC_RESRDY_bm;`

			`return (uint16_t) ADC0.RES;`
			`}`


			`//Set the default for the function pointer.`
			`uint16_t (*ADC_ReadValue)(uint8_t pin_num) = ADC_ReadValue_Impl;`