rtt-f030/bsp/rx/RPDL/interrupt_sci.c

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2014-11-12 01:09:43 +08:00
/*""FILE COMMENT""*******************************************************
* System Name : Interrupt program for RX62Nxx
* File Name : Interrupt_SCI.c
* Version : 1.02
* Contents : Interrupt handlers for all SCI channels
* 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_sci.h"
#include "r_pdl_definitions.h"
#include "r_pdl_user_definitions.h"
/*""FUNC COMMENT""***************************************************
* Module outline: SCIn receive data error interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_SCIn_ERIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output : SSR for that SCI channel
*-------------------------------------------------------------------
* Use function : rpdl_SCI_RX_Error_callback_func
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_SCI0_ERI0
__fast_interrupt void Interrupt_SCI0_ERI0(void)
#else
#pragma vector = VECT_SCI0_ERI0
__interrupt void Interrupt_SCI0_ERI0(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[0] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[0]();
}
else
{
/* Clear the error flags */
SCI0.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
#if FAST_INTC_VECTOR == VECT_SCI1_ERI1
__fast_interrupt void Interrupt_SCI1_ERI1(void)
#else
#pragma vector = VECT_SCI1_ERI1
__interrupt void Interrupt_SCI1_ERI1(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[1] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[1]();
}
else
{
/* Clear the error flags */
SCI1.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
#if 0
#if FAST_INTC_VECTOR == VECT_SCI2_ERI2
__fast_interrupt void Interrupt_SCI2_ERI2(void)
#else
#pragma vector = VECT_SCI2_ERI2
__interrupt void Interrupt_SCI2_ERI2(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[2] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[2]();
}
else
{
/* Clear the error flags */
SCI2.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
#endif
#if FAST_INTC_VECTOR == VECT_SCI3_ERI3
__fast_interrupt void Interrupt_SCI3_ERI3(void)
#else
#pragma vector = VECT_SCI3_ERI3
__interrupt void Interrupt_SCI3_ERI3(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[3] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[3]();
}
else
{
/* Clear the error flags */
SCI3.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
#if FAST_INTC_VECTOR == VECT_SCI5_ERI5
__fast_interrupt void Interrupt_SCI5_ERI5(void)
#else
#pragma vector = VECT_SCI5_ERI5
__interrupt void Interrupt_SCI5_ERI5(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[5] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[5]();
}
else
{
/* Clear the error flags */
SCI5.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
#if FAST_INTC_VECTOR == VECT_SCI6_ERI6
__fast_interrupt void Interrupt_SCI6_ERI6(void)
#else
#pragma vector = VECT_SCI6_ERI6
__interrupt void Interrupt_SCI6_ERI6(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SCI_RX_Error_callback_func[6] != PDL_NO_FUNC)
{
/* Call the error handler */
rpdl_SCI_RX_Error_callback_func[6]();
}
else
{
/* Clear the error flags */
SCI6.SSR.BYTE = (uint8_t)(BIT_7 | BIT_6);
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SCIn receive data interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_SCIn_RXIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output :
*-------------------------------------------------------------------
* Use function : rpdl_SCI_RX_End_callback_func
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_SCI0_RXI0
__fast_interrupt void Interrupt_SCI0_RXI0(void)
#else
#pragma vector = VECT_SCI0_RXI0
__interrupt void Interrupt_SCI0_RXI0(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[0] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[0] == 2)
{
/* check if ID cycle ? */
if (SCI0.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI0.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[0])
{
/* ID does not match */
/* MPIE = 1 */
SCI0.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI0.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[0]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[0] = SCI0.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[0]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[0] < rpdl_SCI_rx_threshold[0])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[0]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI0.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI0.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[0]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI0.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[0]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[0]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI1_RXI1
__fast_interrupt void Interrupt_SCI1_RXI1(void)
#else
#pragma vector = VECT_SCI1_RXI1
__interrupt void Interrupt_SCI1_RXI1(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[1] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[1] == 2)
{
/* check if ID cycle ? */
if (SCI1.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI1.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[1])
{
/* ID does not match */
/* MPIE = 1 */
SCI1.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI1.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[1]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[1] = SCI1.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[1]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[1] < rpdl_SCI_rx_threshold[1])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[1]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI1.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI1.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[1]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI1.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[1]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[1]();
}
}
}
#if 0
#if FAST_INTC_VECTOR == VECT_SCI2_RXI2
__fast_interrupt void Interrupt_SCI2_RXI2(void)
#else
#pragma vector = VECT_SCI2_RXI2
__interrupt void Interrupt_SCI2_RXI2(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[2] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[2] == 2)
{
/* check if ID cycle ? */
if (SCI2.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI2.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[2])
{
/* ID does not match */
/* MPIE = 1 */
SCI2.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI2.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[2]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[2] = SCI2.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[2]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[2] < rpdl_SCI_rx_threshold[2])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[2]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI2.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI2.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[2]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI2.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[2]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[2]();
}
}
}
#endif
#if FAST_INTC_VECTOR == VECT_SCI3_RXI3
__fast_interrupt void Interrupt_SCI3_RXI3(void)
#else
#pragma vector = VECT_SCI3_RXI3
__interrupt void Interrupt_SCI3_RXI3(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[3] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[3] == 2)
{
/* check if ID cycle ? */
if (SCI3.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI3.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[3])
{
/* ID does not match */
/* MPIE = 1 */
SCI3.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI3.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[3]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[3] = SCI3.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[3]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[3] < rpdl_SCI_rx_threshold[3])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[3]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI3.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI3.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[3]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI3.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[3]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[3]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI5_RXI5
__fast_interrupt void Interrupt_SCI5_RXI5(void)
#else
#pragma vector = VECT_SCI5_RXI5
__interrupt void Interrupt_SCI5_RXI5(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[5] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[5] == 2)
{
/* check if ID cycle ? */
if (SCI5.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI5.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[5])
{
/* ID does not match */
/* MPIE = 1 */
SCI5.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI5.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[5]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[5] = SCI5.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[5]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[5] < rpdl_SCI_rx_threshold[5])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[5]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI5.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI5.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[5]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI5.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[5]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[5]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI6_RXI6
__fast_interrupt void Interrupt_SCI6_RXI6(void)
#else
#pragma vector = VECT_SCI6_RXI6
__interrupt void Interrupt_SCI6_RXI6(void)
#endif
{
/* Ok to process the data? */
if (rpdl_SCI_rx_using_irq[6] == true)
{
/* check if ID reception in Multiprocessor mode */
if (rpdl_SCI_MP_mode[6] == 2)
{
/* check if ID cycle ? */
if (SCI6.SSR.BIT.MPB == 1)
{
uint8_t id;
/* Read the ID */
id = SCI6.RDR;
/* ID matching ? */
if (id != rpdl_SCI_MP_rx_stationID[6])
{
/* ID does not match */
/* MPIE = 1 */
SCI6.SCR.BIT.MPIE = 1;
}
else
{
/* ID matches */
/* Disable interrupt request generation, and try to disable reception */
SCI6.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[6]();
}
}
/* Exit ISR */
return;
}
}
/* Read and store the character */
*rpdl_SCI_rx_string_pointer[6] = SCI6.RDR;
/* Increment the character counter */
rpdl_SCI_rx_counter[6]++;
/* More characters expected? */
if (rpdl_SCI_rx_counter[6] < rpdl_SCI_rx_threshold[6])
{
/* Move to the next location in the buffer */
rpdl_SCI_rx_string_pointer[6]++;
}
else
{
/* Disable interrupt request generation, and try to disable reception */
SCI6.SCR.BYTE &= (uint8_t)(INV_BIT_6 & INV_BIT_4);
/* Async MP mode ? */
if (((SCI6.SMR.BIT.MP) != 0) && ((rpdl_SCI_MP_mode[6]) != 0))
{
/* Set MPIE = 1 (multiprocessor mode reception) */
SCI6.SCR.BIT.MPIE = 1;
}
/* Notify the user */
if (rpdl_SCI_RX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[6]();
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_RX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_RX_End_callback_func[6]();
}
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SCIn transmit data interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_SCIn_TXIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output : TDR for that SCI channel
*-------------------------------------------------------------------
* Use function :
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_SCI0_TXI0
__fast_interrupt void Interrupt_SCI0_TXI0(void)
#else
#pragma vector = VECT_SCI0_TXI0
__interrupt void Interrupt_SCI0_TXI0(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[0] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[0] == 0) && (*rpdl_SCI_tx_string_pointer[0] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[0] < rpdl_SCI_tx_threshold[0])
)
{
/* Send the character */
SCI0.TDR = *rpdl_SCI_tx_string_pointer[0];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[0]++;
/* Increment the counter */
rpdl_SCI_tx_counter[0]++;
}
else
{
/* Disable interrupt request generation */
SCI0.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI0.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI0.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[0]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[0]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI1_TXI1
__fast_interrupt void Interrupt_SCI1_TXI1(void)
#else
#pragma vector = VECT_SCI1_TXI1
__interrupt void Interrupt_SCI1_TXI1(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[1] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[1] == 0) && (*rpdl_SCI_tx_string_pointer[1] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[1] < rpdl_SCI_tx_threshold[1])
)
{
/* Send the character */
SCI1.TDR = *rpdl_SCI_tx_string_pointer[1];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[1]++;
/* Increment the counter */
rpdl_SCI_tx_counter[1]++;
}
else
{
/* Disable interrupt request generation */
SCI1.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI1.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI1.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[1]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[1]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI2_TXI2
__fast_interrupt void Interrupt_SCI2_TXI2(void)
#else
#pragma vector = VECT_SCI2_TXI2
__interrupt void Interrupt_SCI2_TXI2(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[2] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[2] == 0) && (*rpdl_SCI_tx_string_pointer[2] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[2] < rpdl_SCI_tx_threshold[2])
)
{
/* Send the character */
SCI2.TDR = *rpdl_SCI_tx_string_pointer[2];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[2]++;
/* Increment the counter */
rpdl_SCI_tx_counter[2]++;
}
else
{
/* Disable interrupt request generation */
SCI2.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI2.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI2.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[2]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[2]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI3_TXI3
__fast_interrupt void Interrupt_SCI3_TXI3(void)
#else
#pragma vector = VECT_SCI3_TXI3
__interrupt void Interrupt_SCI3_TXI3(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[3] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[3] == 0) && (*rpdl_SCI_tx_string_pointer[3] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[3] < rpdl_SCI_tx_threshold[3])
)
{
/* Send the character */
SCI3.TDR = *rpdl_SCI_tx_string_pointer[3];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[3]++;
/* Increment the counter */
rpdl_SCI_tx_counter[3]++;
}
else
{
/* Disable interrupt request generation */
SCI3.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI3.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI3.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[3]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[3]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI5_TXI5
__fast_interrupt void Interrupt_SCI5_TXI5(void)
#else
#pragma vector = VECT_SCI5_TXI5
__interrupt void Interrupt_SCI5_TXI5(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[5] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[5] == 0) && (*rpdl_SCI_tx_string_pointer[5] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[5] < rpdl_SCI_tx_threshold[5])
)
{
/* Send the character */
SCI5.TDR = *rpdl_SCI_tx_string_pointer[5];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[5]++;
/* Increment the counter */
rpdl_SCI_tx_counter[5]++;
}
else
{
/* Disable interrupt request generation */
SCI5.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI5.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI5.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[5]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[5]();
}
}
}
#if FAST_INTC_VECTOR == VECT_SCI6_TXI6
__fast_interrupt void Interrupt_SCI6_TXI6(void)
#else
#pragma vector = VECT_SCI6_TXI6
__interrupt void Interrupt_SCI6_TXI6(void)
#endif
{
/* Ok to process the string? */
if (rpdl_SCI_tx_using_irq[6] == true)
{
/* Another character to be sent? */
if (
/* Sending a string and next character is not a Null? */
((rpdl_SCI_tx_threshold[6] == 0) && (*rpdl_SCI_tx_string_pointer[6] != NULL))
||
/* Not reached the byte total? */
(rpdl_SCI_tx_counter[6] < rpdl_SCI_tx_threshold[6])
)
{
/* Send the character */
SCI6.TDR = *rpdl_SCI_tx_string_pointer[6];
/* Increment the pointer */
rpdl_SCI_tx_string_pointer[6]++;
/* Increment the counter */
rpdl_SCI_tx_counter[6]++;
}
else
{
/* Disable interrupt request generation */
SCI6.SCR.BIT.TIE = 0;
/* Smart card mode? */
if (SCI6.SCMR.BIT.SMIF == 1)
{
/* Disable transmission and interrupt request generation */
SCI6.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[6]();
}
}
}
}
/* Either the DMAC or DTC has passed on the interrupt */
else
{
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[6]();
}
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SCIn transmit end interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_SCIn_TEIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output : SCR for that channel
*-------------------------------------------------------------------
* Use function : rpdl_SCI_TX_End_callback_func()
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_SCI0_TEI0
__fast_interrupt void Interrupt_SCI0_TEI0(void)
#else
#pragma vector = VECT_SCI0_TEI0
__interrupt void Interrupt_SCI0_TEI0(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI0.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_SCI1_TEI1
__fast_interrupt void Interrupt_SCI1_TEI1(void)
#else
#pragma vector = VECT_SCI1_TEI1
__interrupt void Interrupt_SCI1_TEI1(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI1.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[1]();
}
}
#if FAST_INTC_VECTOR == VECT_SCI2_TEI2
__fast_interrupt void Interrupt_SCI2_TEI2(void)
#else
#pragma vector = VECT_SCI2_TEI2
__interrupt void Interrupt_SCI2_TEI2(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI2.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[2] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[2]();
}
}
#if FAST_INTC_VECTOR == VECT_SCI3_TEI3
__fast_interrupt void Interrupt_SCI3_TEI3(void)
#else
#pragma vector = VECT_SCI3_TEI3
__interrupt void Interrupt_SCI3_TEI3(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI3.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[3] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[3]();
}
}
#if FAST_INTC_VECTOR == VECT_SCI5_TEI5
__fast_interrupt void Interrupt_SCI5_TEI5(void)
#else
#pragma vector = VECT_SCI5_TEI5
__interrupt void Interrupt_SCI5_TEI5(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI5.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[5] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[5]();
}
}
#if FAST_INTC_VECTOR == VECT_SCI6_TEI6
__fast_interrupt void Interrupt_SCI6_TEI6(void)
#else
#pragma vector = VECT_SCI6_TEI6
__interrupt void Interrupt_SCI6_TEI6(void)
#endif
{
/* Disable interrupt request generation, and try to disable transmission */
SCI6.SCR.BYTE &= (uint8_t)(INV_BIT_7 & INV_BIT_5 & INV_BIT_2);
/* Call the callback function */
if (rpdl_SCI_TX_End_callback_func[6] != PDL_NO_FUNC)
{
rpdl_SCI_TX_End_callback_func[6]();
}
}
/* End of file */