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SummerSchool2-Controller/306-controller_interface.X/mcc_generated_files/tmr0.h

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2023-08-22 07:22:00 +00:00
/**
TMR0 Generated Driver API Header File
@Company
Microchip Technology Inc.
@File Name
tmr0.h
@Summary
This is the generated header file for the TMR0 driver using PIC10 / PIC12 / PIC16 / PIC18 MCUs
@Description
This header file provides APIs for TMR0.
Generation Information :
Product Revision : PIC10 / PIC12 / PIC16 / PIC18 MCUs - 1.81.8
Device : PIC18F26K83
Driver Version : 3.10
The generated drivers are tested against the following:
Compiler : XC8 2.36 and above
MPLAB : MPLAB X 6.00
*/
/*
(c) 2018 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. It is your responsibility to comply with third party
license terms applicable to your use of third party software (including open source software) that
may accompany Microchip software.
THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES, WHETHER
EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE, INCLUDING ANY
IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, AND 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 IN ANY WAY RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT
OF FEES, IF ANY, THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS
SOFTWARE.
*/
#ifndef TMR0_H
#define TMR0_H
/**
Section: Included Files
*/
#include <stdint.h>
#include <stdbool.h>
#ifdef __cplusplus // Provide C++ Compatibility
extern "C" {
#endif
/**
Section: TMR0 APIs
*/
/**
@Summary
Initializes the TMR0.
@Description
This function initializes the TMR0 Registers.
This function must be called before any other TMR0 function is called.
@Preconditions
None
@Param
None
@Returns
None
@Comment
@Example
<code>
main()
{
// Initialize TMR0 module
TMR0_Initialize();
// Do something else...
}
</code>
*/
void TMR0_Initialize(void);
/**
@Summary
This function starts the TMR0.
@Description
This function starts the TMR0 operation.
This function must be called after the initialization of TMR0.
@Preconditions
Initialize the TMR0 before calling this function.
@Param
None
@Returns
None
@Example
<code>
// Initialize TMR0 module
// Start TMR0
TMR0_StartTimer();
// Do something else...
</code>
*/
void TMR0_StartTimer(void);
/**
@Summary
This function stops the TMR0.
@Description
This function stops the TMR0 operation.
This function must be called after the start of TMR0.
@Preconditions
Initialize the TMR0 before calling this function.
@Param
None
@Returns
None
@Example
<code>
// Initialize TMR0 module
// Start TMR0
TMR0_StartTimer();
// Do something else...
// Stop TMR0;
TMR0_StopTimer();
</code>
*/
void TMR0_StopTimer(void);
/**
@Summary
Reads the 8 bits TMR0 register value.
@Description
This function reads the 8 bits TMR0 register value and return it.
@Preconditions
Initialize the TMR0 before calling this function.
@Param
None
@Returns
This function returns the 8 bits value of TMR0 register.
@Example
<code>
// Initialize TMR0 module
// Start TMR0
TMR0_StartTimer();
// Read the current value of TMR0
if(0 == TMR0_ReadTimer())
{
// Do something else...
// Stop TMR0;
TMR0_StopTimer();
}
</code>
*/
uint8_t TMR0_ReadTimer(void);
/**
@Summary
Writes the 8 bits value to TMR0 register.
@Description
This function writes the 8 bits value to TMR0 register.
This function must be called after the initialization of TMR0.
@Preconditions
Initialize the TMR0 before calling this function.
@Param
timerVal - Value to write into TMR0 register.
@Returns
None
@Example
<code>
#define PERIOD 0x80
#define ZERO 0x00
while(1)
{
// Read the TMR0 register
if(ZERO == TMR0_ReadTimer())
{
// Do something else...
// Write the TMR0 register
TMR0_WriteTimer(PERIOD);
}
// Do something else...
}
</code>
*/
void TMR0_WriteTimer(uint8_t timerVal);
/**
@Summary
Load value to Period Register.
@Description
This function writes the value to TMR0H register.
This function must be called after the initialization of TMR0.
@Preconditions
Initialize the TMR0 before calling this function.
@Param
periodVal - Value to load into TMR0 register.
@Returns
None
@Example
<code>
while(1)
{
if(TMR0IF)
{
// Do something else...
// clear the TMR0 interrupt flag
TMR0IF = 0;
// Change the period value of TMR0
TMR0_Reload(0x80);
}
}
</code>
*/
void TMR0_Reload(uint8_t periodVal);
/**
@Summary
Timer Interrupt Service Routine
@Description
Timer Interrupt Service Routine is called by the Interrupt Manager.
@Preconditions
Initialize the TMR0 module with interrupt before calling this isr.
@Param
None
@Returns
None
*/
void TMR0_ISR(void);
/**
@Summary
Set Timer Interrupt Handler
@Description
This sets the function to be called during the ISR
@Preconditions
Initialize the TMR0 module with interrupt before calling this.
@Param
Address of function to be set
@Returns
None
*/
void TMR0_SetInterruptHandler(void (* InterruptHandler)(void));
/**
@Summary
Timer Interrupt Handler
@Description
This is a function pointer to the function that will be called during the ISR
@Preconditions
Initialize the TMR0 module with interrupt before calling this isr.
@Param
None
@Returns
None
*/
extern void (*TMR0_InterruptHandler)(void);
/**
@Summary
Default Timer Interrupt Handler
@Description
This is the default Interrupt Handler function
@Preconditions
Initialize the TMR0 module with interrupt before calling this isr.
@Param
None
@Returns
None
*/
void TMR0_DefaultInterruptHandler(void);
#ifdef __cplusplus // Provide C++ Compatibility
}
#endif
#endif // TMR0_H
/**
End of File
*/