__STATIC_INLINE void XMC_CCU4_lGateClock(const XMC_CCU4_MODULE_t *const module)
{
switch ((uint32_t)module)
{
case (uint32_t)CCU40:
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_CCU40);
break;
#if defined(CCU41)
case (uint32_t)CCU41:
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_CCU41);
break;
#endif
#if defined(CCU42)
case (uint32_t)CCU42:
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_CCU42);
break;
#endif
#if defined(CCU43)
case (uint32_t)CCU43:
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_CCU43);
break;
#endif
default:
XMC_ASSERT("XMC_CCU4_lGateClock:Invalid Module Pointer", 0);
break;
}
}
/* API to disable the POSIF module */
void XMC_POSIF_Disable(XMC_POSIF_t *const peripheral)
{
if (peripheral == POSIF0)
{
#if defined(PERIPHERAL_RESET_SUPPORTED)
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_POSIF0);
#endif
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_POSIF0);
#endif
}
#if defined(POSIF1)
else if (peripheral == POSIF1)
{
#if defined(PERIPHERAL_RESET_SUPPORTED)
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_POSIF1);
#endif
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_POSIF1);
#endif
}
#endif
else
{
XMC_ASSERT("XMC_POSIF_Disable:Invalid module pointer", 0);
}
}
/* API to disable the POSIF module */
void XMC_POSIF_Disable(XMC_POSIF_t *const peripheral)
{
switch ((uint32_t)peripheral)
{
case (uint32_t)POSIF0:
#if defined(PERIPHERAL_RESET_SUPPORTED)
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_POSIF0);
#endif
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_POSIF0);
#endif
break;
#if defined(POSIF1)
case (uint32_t)POSIF1:
#if defined(PERIPHERAL_RESET_SUPPORTED)
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_POSIF1);
#endif
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_POSIF1);
#endif
break;
#endif
default:
XMC_ASSERT("XMC_POSIF_Disable:Invalid module pointer", 0);
break;
}
}
/* Disables watchdog clock and resets watchdog. */
void XMC_WDT_Disable(void)
{
#if defined(PERIPHERAL_RESET_SUPPORTED)
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_WDT);
#endif
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_WDT);
#endif
#if UC_FAMILY == XMC4
XMC_SCU_CLOCK_DisableClock(XMC_SCU_CLOCK_WDT);
#endif
}
/* Disable the clock and Reset the ERU module. */
void XMC_ERU_Disable(XMC_ERU_t *const eru)
{
#if defined(XMC_ERU1)
if (eru == XMC_ERU1)
{
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_ERU1);
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_ERU1);
#endif
}
#else
XMC_UNUSED_ARG(eru);
#endif
}
/* Disable GPDMA module */
void XMC_DMA_Disable(XMC_DMA_t *const dma)
{
dma->DMACFGREG = 0x0U;
#if defined(GPDMA1)
if (dma == XMC_DMA0)
{
#endif
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_GPDMA0);
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_GPDMA0);
#endif
#if defined(GPDMA1)
}
else
{
XMC_SCU_RESET_AssertPeripheralReset(XMC_SCU_PERIPHERAL_RESET_GPDMA1);
#if defined(CLOCK_GATING_SUPPORTED)
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_GPDMA1);
#endif
}
#endif
}
/*
* Gates a clock node for RTC
*/
void XMC_RTC_Disable(void)
{
XMC_SCU_CLOCK_GatePeripheralClock(XMC_SCU_PERIPHERAL_CLOCK_RTC);
}
