rt-thread-official/bsp/rx/RPDL/Interrupt_TMR.c

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2014-11-12 01:09:43 +08:00
/*""FILE COMMENT""*******************************************************
* System Name : Interrupt program for RX62Nxx
* File Name : Interrupt_TMR.c
* Version : 1.02
* Contents : Interrupt handlers for the Timer units
* Customer :
* Model :
* Order :
* CPU : RX
* Compiler : RXC
* OS : Nothing
* Programmer :
* Note :
************************************************************************
* Copyright, 2011. Renesas Electronics Corporation
* and Renesas Solutions Corporation
************************************************************************
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FILE COMMENT END""**************************************************/
#include "r_pdl_tmr.h"
#include "r_pdl_definitions.h"
#include "r_pdl_user_definitions.h"
/*""FUNC COMMENT""***************************************************
* Module outline : Timer interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_TMRn_XXX(void)
*-------------------------------------------------------------------
* Function : Interrupt processing function for Timer TMR channel n
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Input :
* Output :
*-------------------------------------------------------------------
* Use function : R_TmrOverflowFunc[n](), R_TmrCMAFunc[n]() or
* : R_TmrCMBFunc[n]() as appropriate.
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_TMR0_CMIA0
__fast_interrupt void Interrupt_TMR0_CMA(void)
#else
#pragma vector = VECT_TMR0_CMIA0
__interrupt void Interrupt_TMR0_CMA(void)
#endif
{
/* Call the user function? */
if (rpdl_TMR_CMA_callback_func[0] != PDL_NO_FUNC)
{
/* Call the user function */
rpdl_TMR_CMA_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR0_CMIB0
__fast_interrupt void Interrupt_TMR0_CMB(void)
#else
#pragma vector = VECT_TMR0_CMIB0
__interrupt void Interrupt_TMR0_CMB(void)
#endif
{
if (rpdl_TMR_one_shot[0] != false)
{
/* Channel mode? */
if (rpdl_TMR_one_shot[0] == CHANNEL_MODE)
{
/* Stop the channel 0 clock input */
TMR0.TCCR.BYTE = 0x00u;
}
/* Unit mode? */
else
{
/* Stop the channel 1 clock input */
TMR1.TCCR.BYTE = 0x00u;
}
rpdl_TMR_one_shot[0] = false;
/* Clear the interrupt request flag (the timer may have set it again) */
ICU.IR[VECT_TMR0_CMIB0].BIT.IR = 0;
}
/* Call the user function? */
if (rpdl_TMR_CMB_callback_func[0] != PDL_NO_FUNC)
{
rpdl_TMR_CMB_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR0_OVI0
__fast_interrupt void Interrupt_TMR0_OV(void)
#else
#pragma vector = VECT_TMR0_OVI0
__interrupt void Interrupt_TMR0_OV(void)
#endif
{
/* Call the user function */
if (rpdl_TMR_Overflow_callback_func[0] != PDL_NO_FUNC)
{
rpdl_TMR_Overflow_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR1_CMIA1
__fast_interrupt void Interrupt_TMR1_CMA(void)
#else
#pragma vector = VECT_TMR1_CMIA1
__interrupt void Interrupt_TMR1_CMA(void)
#endif
{
/* Call the user function? */
if (rpdl_TMR_CMA_callback_func[1] != PDL_NO_FUNC)
{
/* Call the user function */
rpdl_TMR_CMA_callback_func[1]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR1_CMIB1
__fast_interrupt void Interrupt_TMR1_CMB(void)
#else
#pragma vector = VECT_TMR1_CMIB1
__interrupt void Interrupt_TMR1_CMB(void)
#endif
{
if (rpdl_TMR_one_shot[1] != false)
{
/* Stop the channel 1 clock input */
TMR1.TCCR.BYTE = 0x00u;
rpdl_TMR_one_shot[1] = false;
/* Clear the interrupt request flag (the timer may have set it again) */
ICU.IR[VECT_TMR1_CMIB1].BIT.IR = 0u;
}
/* Call the user function? */
if (rpdl_TMR_CMB_callback_func[1] != PDL_NO_FUNC)
{
rpdl_TMR_CMB_callback_func[1]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR1_OVI1
__fast_interrupt void Interrupt_TMR1_OV(void)
#else
#pragma vector = VECT_TMR1_OVI1
__interrupt void Interrupt_TMR1_OV(void)
#endif
{
/* Call the user function */
if (rpdl_TMR_Overflow_callback_func[1] != PDL_NO_FUNC)
{
rpdl_TMR_Overflow_callback_func[1]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR2_CMIA2
__fast_interrupt void Interrupt_TMR2_CMA(void)
#else
#pragma vector = VECT_TMR2_CMIA2
__interrupt void Interrupt_TMR2_CMA(void)
#endif
{
/* Call the user function? */
if (rpdl_TMR_CMA_callback_func[2] != PDL_NO_FUNC)
{
/* Call the user function */
rpdl_TMR_CMA_callback_func[2]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR2_CMIB2
__fast_interrupt void Interrupt_TMR2_CMB(void)
#else
#pragma vector = VECT_TMR2_CMIB2
__interrupt void Interrupt_TMR2_CMB(void)
#endif
{
if (rpdl_TMR_one_shot[2] != false)
{
/* Channel mode? */
if (rpdl_TMR_one_shot[2] == CHANNEL_MODE)
{
/* Stop the channel 2 clock input */
TMR2.TCCR.BYTE = 0x00u;
}
/* Unit mode? */
else
{
/* Stop the channel 3 clock input */
TMR3.TCCR.BYTE = 0x00u;
}
rpdl_TMR_one_shot[2] = false;
/* Clear the interrupt request flag (the timer may have set it again) */
ICU.IR[VECT_TMR2_CMIB2].BIT.IR = 0;
}
/* Call the user function? */
if (rpdl_TMR_CMB_callback_func[2] != PDL_NO_FUNC)
{
rpdl_TMR_CMB_callback_func[2]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR2_OVI2
__fast_interrupt void Interrupt_TMR2_OV(void)
#else
#pragma vector = VECT_TMR2_OVI2
__interrupt void Interrupt_TMR2_OV(void)
#endif
{
/* Call the user function */
if (rpdl_TMR_Overflow_callback_func[2] != PDL_NO_FUNC)
{
rpdl_TMR_Overflow_callback_func[2]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR3_CMIA3
__fast_interrupt void Interrupt_TMR3_CMA(void)
#else
#pragma vector = VECT_TMR3_CMIA3
__interrupt void Interrupt_TMR3_CMA(void)
#endif
{
/* Call the user function? */
if (rpdl_TMR_CMA_callback_func[3] != PDL_NO_FUNC)
{
/* Call the user function */
rpdl_TMR_CMA_callback_func[3]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR3_CMIB3
__fast_interrupt void Interrupt_TMR3_CMB(void)
#else
#pragma vector = VECT_TMR3_CMIB3
__interrupt void Interrupt_TMR3_CMB(void)
#endif
{
if (rpdl_TMR_one_shot[3] != false)
{
/* Stop the channel 3 clock input */
TMR3.TCCR.BYTE = 0x00u;
rpdl_TMR_one_shot[3] = false;
/* Clear the interrupt request flag (the timer may have set it again) */
ICU.IR[VECT_TMR3_CMIB3].BIT.IR = 0;
}
/* Call the user function? */
if (rpdl_TMR_CMB_callback_func[3] != PDL_NO_FUNC)
{
rpdl_TMR_CMB_callback_func[3]();
}
}
#if FAST_INTC_VECTOR == VECT_TMR3_OVI3
__fast_interrupt void Interrupt_TMR3_OV(void)
#else
#pragma vector = VECT_TMR3_OVI3
__interrupt void Interrupt_TMR3_OV(void)
#endif
{
/* Call the user function */
if (rpdl_TMR_Overflow_callback_func[3] != PDL_NO_FUNC)
{
rpdl_TMR_Overflow_callback_func[3]();
}
}
/* End of file */