/******************************************************************** * FileName: int_tbl_lipb.c * Dependencies: * Processor: PIC32 * Hardware: N/A * Assembler: N/A * Linker: N/A * Company: Microchip Technology Inc. * * Software License Agreement: * The software supplied herewith by Microchip Technology Incorporated * (the “Company”) for its PICmicro® Microcontroller is intended and * supplied to you, the Company’s customer, for use solely and * exclusively on Microchip PICmicro Microcontroller products. The * software is owned by the Company and/or its supplier, and is * protected under applicable copyright laws. All rights are reserved. * Any use in violation of the foregoing restrictions may subject the * user to criminal sanctions under applicable laws, as well as to * civil liability for the breach of the terms and conditions of this * license. * * THIS SOFTWARE IS PROVIDED IN AN “AS IS” CONDITION. NO WARRANTIES, * WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED * TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A * PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. THE COMPANY SHALL NOT, * IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL OR * CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER. * * $Id:$ * $Name: $ ********************************************************************/ #include enum { SFR_REG, SFR_CLR, SFR_SET, SFR_INV }; typedef volatile unsigned int VUINT; typedef struct { VUINT *ifs; VUINT *iec; VUINT *ipc; unsigned int mask; unsigned int sub_shift; unsigned int pri_shift; }INT_TBL_ENTRY; const INT_TBL_ENTRY __IntTbl[] = { { &IFS0, &IEC0, &IPC0, _IFS0_CTIF_MASK, _IPC0_CTIS_POSITION, _IPC0_CTIP_POSITION }, // Core Timer Interrupt { &IFS0, &IEC0, &IPC0, _IFS0_CS0IF_MASK, _IPC0_CS0IS_POSITION, _IPC0_CS0IP_POSITION }, // Core Software Interrupt 0 { &IFS0, &IEC0, &IPC0, _IFS0_CS1IF_MASK, _IPC0_CS1IS_POSITION, _IPC0_CS1IP_POSITION }, // Core Software Interrupt 1 { &IFS0, &IEC0, &IPC0, _IFS0_INT0IF_MASK, _IPC0_INT0IS_POSITION, _IPC0_INT0IP_POSITION }, // External Interrupt 0 { &IFS0, &IEC0, &IPC1, _IFS0_INT1IF_MASK, _IPC1_INT1IS_POSITION, _IPC1_INT1IP_POSITION }, // External Interrupt 1 { &IFS0, &IEC0, &IPC2, _IFS0_INT2IF_MASK, _IPC2_INT2IS_POSITION, _IPC2_INT2IP_POSITION }, // External Interrrupt 2 { &IFS0, &IEC0, &IPC3, _IFS0_INT3IF_MASK, _IPC3_INT3IS_POSITION, _IPC3_INT3IP_POSITION }, // External Interrupt 3 { &IFS0, &IEC0, &IPC4, _IFS0_INT4IF_MASK, _IPC4_INT4IS_POSITION, _IPC4_INT4IP_POSITION }, // External Interupt 4 { &IFS0, &IEC0, &IPC1, _IFS0_T1IF_MASK, _IPC1_T1IS_POSITION, _IPC1_T1IP_POSITION }, // Timer 1 { &IFS0, &IEC0, &IPC2, _IFS0_T2IF_MASK, _IPC2_T2IS_POSITION, _IPC2_T2IP_POSITION }, // Timer 2 { &IFS0, &IEC0, &IPC3, _IFS0_T3IF_MASK, _IPC3_T3IS_POSITION, _IPC3_T3IP_POSITION }, // TImer 3 { &IFS0, &IEC0, &IPC4, _IFS0_T4IF_MASK, _IPC4_T4IS_POSITION, _IPC4_T4IP_POSITION }, // Timer 4 { &IFS0, &IEC0, &IPC5, _IFS0_T5IF_MASK, _IPC5_T5IS_POSITION, _IPC5_T5IP_POSITION }, // Timer 5 { &IFS0, &IEC0, &IPC1, _IFS0_IC1IF_MASK, _IPC1_IC1IS_POSITION, _IPC1_IC1IP_POSITION }, // Input Capture 1 { &IFS0, &IEC0, &IPC2, _IFS0_IC2IF_MASK, _IPC2_IC2IS_POSITION, _IPC2_IC2IP_POSITION }, // Input Capture 2 { &IFS0, &IEC0, &IPC3, _IFS0_IC3IF_MASK, _IPC3_IC3IS_POSITION, _IPC3_IC3IP_POSITION }, // Input Capture 3 { &IFS0, &IEC0, &IPC4, _IFS0_IC4IF_MASK, _IPC4_IC4IS_POSITION, _IPC4_IC4IP_POSITION }, // Input Capture 4 { &IFS0, &IEC0, &IPC5, _IFS0_IC5IF_MASK, _IPC5_IC5IS_POSITION, _IPC5_IC5IP_POSITION }, // Input Capture 5 { &IFS0, &IEC0, &IPC1, _IFS0_OC1IF_MASK, _IPC1_OC1IS_POSITION, _IPC1_OC1IP_POSITION }, // Output Capture 1 { &IFS0, &IEC0, &IPC2, _IFS0_OC2IF_MASK, _IPC2_OC2IS_POSITION, _IPC2_OC2IP_POSITION }, // Output Capture 2 { &IFS0, &IEC0, &IPC3, _IFS0_OC3IF_MASK, _IPC3_OC3IS_POSITION, _IPC3_OC3IP_POSITION }, // Output Capture 3 { &IFS0, &IEC0, &IPC4, _IFS0_OC4IF_MASK, _IPC4_OC4IS_POSITION, _IPC4_OC4IP_POSITION }, // Output Capture 4 { &IFS0, &IEC0, &IPC5, _IFS0_OC5IF_MASK, _IPC5_OC5IS_POSITION, _IPC5_OC5IP_POSITION }, // Output Capture 5 { &IFS1, &IEC1, &IPC6, _IFS1_CNIF_MASK, _IPC6_CNIS_POSITION, _IPC6_CNIP_POSITION }, // Input Change #ifdef _SPI1 { &IFS0, &IEC0, &IPC5, _IFS0_SPI1EIF_MASK, _IPC5_SPI1IS_POSITION, _IPC5_SPI1IP_POSITION }, // SPI 1 Fault #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI2 { &IFS1, &IEC1, &IPC7, _IFS1_SPI2EIF_MASK, _IPC7_SPI2IS_POSITION, _IPC7_SPI2IP_POSITION }, // SPI 2 Fault #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI1 { &IFS0, &IEC0, &IPC5, _IFS0_SPI1TXIF_MASK, _IPC5_SPI1IS_POSITION, _IPC5_SPI1IP_POSITION }, // SPI 1 Transfer Done #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI2 { &IFS1, &IEC1, &IPC7, _IFS1_SPI2TXIF_MASK, _IPC7_SPI2IS_POSITION, _IPC7_SPI2IP_POSITION }, // SPI 2 Transfer Done #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI1 { &IFS0, &IEC0, &IPC5, _IFS0_SPI1RXIF_MASK, _IPC5_SPI1IS_POSITION, _IPC5_SPI1IP_POSITION }, // SPI 1 Receive Done #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI2 { &IFS1, &IEC1, &IPC7, _IFS1_SPI2RXIF_MASK, _IPC7_SPI2IS_POSITION, _IPC7_SPI2IP_POSITION }, // SPI 2 Receive Done #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI1 { &IFS0, &IEC0, &IPC5, (_IFS0_SPI1EIF_MASK | _IFS0_SPI1TXIF_MASK | _IFS0_SPI1RXIF_MASK), _IPC5_SPI1IS_POSITION, _IPC5_SPI1IP_POSITION }, // SPI 1 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _SPI2 { &IFS1, &IEC1, &IPC7, (_IFS1_SPI2EIF_MASK | _IFS1_SPI2TXIF_MASK | _IFS1_SPI2RXIF_MASK), _IPC7_SPI2IS_POSITION, _IPC7_SPI2IP_POSITION }, // SPI 2 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif { &IFS0, &IEC0, &IPC6, _IFS0_U1EIF_MASK, _IPC6_U1IS_POSITION, _IPC6_U1IP_POSITION }, // UART 1 Error { &IFS1, &IEC1, &IPC8, _IFS1_U2EIF_MASK, _IPC8_U2IS_POSITION, _IPC8_U2IP_POSITION }, // UART 2 Error { &IFS0, &IEC0, &IPC6, _IFS0_U1RXIF_MASK, _IPC6_U1IS_POSITION, _IPC6_U1IP_POSITION }, // UART 1 Receiver { &IFS1, &IEC1, &IPC8, _IFS1_U2RXIF_MASK, _IPC8_U2IS_POSITION, _IPC8_U2IP_POSITION }, // UART 2 Receiver { &IFS0, &IEC0, &IPC6, _IFS0_U1TXIF_MASK, _IPC6_U1IS_POSITION, _IPC6_U1IP_POSITION }, // UART 1 Transmitter { &IFS1, &IEC1, &IPC8, _IFS1_U2TXIF_MASK, _IPC8_U2IS_POSITION, _IPC8_U2IP_POSITION }, // UART 2 Transmitter { &IFS0, &IEC0, &IPC6, (_IFS0_U1EIF_MASK | _IFS0_U1RXIF_MASK | _IFS0_U1TXIF_MASK), _IPC6_U1IS_POSITION, _IPC6_U1IP_POSITION }, // UART 1 { &IFS1, &IEC1, &IPC8, (_IFS1_U2EIF_MASK | _IFS1_U2RXIF_MASK | _IFS1_U2TXIF_MASK), _IPC8_U2IS_POSITION, _IPC8_U2IP_POSITION }, // UART 2 #ifdef _I2C1 { &IFS0, &IEC0, &IPC6, _IFS0_I2C1BIF_MASK, _IPC6_I2C1IS_POSITION, _IPC6_I2C1IP_POSITION }, // I2C 1 Bus Colision Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C2 { &IFS1, &IEC1, &IPC8, _IFS1_I2C2BIF_MASK, _IPC8_I2C2IS_POSITION, _IPC8_I2C2IP_POSITION }, // I2C 2 Bus Colision Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C1 { &IFS0, &IEC0, &IPC6, _IFS0_I2C1SIF_MASK, _IPC6_I2C1IS_POSITION, _IPC6_I2C1IP_POSITION }, // I2C 1 Slave Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C2 { &IFS1, &IEC1, &IPC8, _IFS1_I2C2SIF_MASK, _IPC8_I2C2IS_POSITION, _IPC8_I2C2IP_POSITION }, // I2C 2 Slave Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C1 { &IFS0, &IEC0, &IPC6, _IFS0_I2C1MIF_MASK, _IPC6_I2C1IS_POSITION, _IPC6_I2C1IP_POSITION }, // I2C 1 Master Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C2 { &IFS1, &IEC1, &IPC8, _IFS1_I2C2MIF_MASK, _IPC8_I2C2IS_POSITION, _IPC8_I2C2IP_POSITION }, // I2C 2 Master Event #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C1 { &IFS0, &IEC0, &IPC6, (_IFS0_I2C1BIF_MASK | _IFS0_I2C1SIF_MASK | _IFS0_I2C1MIF_MASK), _IPC6_I2C1IS_POSITION, _IPC6_I2C1IP_POSITION }, // I2C1 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _I2C2 { &IFS1, &IEC1, &IPC8, (_IFS1_I2C2BIF_MASK | _IFS1_I2C2SIF_MASK | _IFS1_I2C2MIF_MASK), _IPC8_I2C2IS_POSITION, _IPC8_I2C2IP_POSITION }, // I2C2 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif { &IFS1, &IEC1, &IPC6, _IFS1_AD1IF_MASK, _IPC6_AD1IS_POSITION, _IPC6_AD1IP_POSITION }, // ADC 1 Convert Done { &IFS1, &IEC1, &IPC7, _IFS1_PMPIF_MASK, _IPC7_PMPIS_POSITION, _IPC7_PMPIP_POSITION }, // Parallel Master Port { &IFS1, &IEC1, &IPC7, _IFS1_CMP1IF_MASK, _IPC7_CMP1IS_POSITION, _IPC7_CMP1IP_POSITION }, // Comparator 1 Interrupt { &IFS1, &IEC1, &IPC7, _IFS1_CMP2IF_MASK, _IPC7_CMP2IS_POSITION, _IPC7_CMP2IP_POSITION }, // Comparator 2 Interrupt { &IFS1, &IEC1, &IPC8, _IFS1_FSCMIF_MASK, _IPC8_FSCMIS_POSITION, _IPC8_FSCMIP_POSITION }, // Fail-safe Monitor { &IFS1, &IEC1, &IPC11, _IFS1_FCEIF_MASK, _IPC11_FCEIS_POSITION, _IPC11_FCEIP_POSITION }, // Flash Control Event { &IFS1, &IEC1, &IPC8, _IFS1_RTCCIF_MASK, _IPC8_RTCCIS_POSITION, _IPC8_RTCCIP_POSITION }, // Real Time Clock #ifdef _DMAC0 { &IFS1, &IEC1, &IPC9, _IFS1_DMA0IF_MASK, _IPC9_DMA0IS_POSITION, _IPC9_DMA0IP_POSITION }, // DMA Channel 0 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC1 { &IFS1, &IEC1, &IPC9, _IFS1_DMA1IF_MASK, _IPC9_DMA1IS_POSITION, _IPC9_DMA1IP_POSITION }, // DMA Channel 1 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC2 { &IFS1, &IEC1, &IPC9, _IFS1_DMA2IF_MASK, _IPC9_DMA2IS_POSITION, _IPC9_DMA2IP_POSITION }, // DMA Channel 2 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC3 { &IFS1, &IEC1, &IPC9, _IFS1_DMA3IF_MASK, _IPC9_DMA3IS_POSITION, _IPC9_DMA3IP_POSITION }, // DMA Channel 3 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC4 { &IFS1, &IEC1, &IPC10, _IFS1_DMA4IF_MASK, _IPC10_DMA4IS_POSITION, _IPC10_DMA4IP_POSITION }, // DMA Channel 4 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC5 { &IFS1, &IEC1, &IPC10, _IFS1_DMA5IF_MASK, _IPC10_DMA5IS_POSITION, _IPC10_DMA5IP_POSITION }, // DMA Channel 5 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC6 { &IFS1, &IEC1, &IPC10, _IFS1_DMA6IF_MASK, _IPC10_DMA6IS_POSITION, _IPC10_DMA6IP_POSITION }, // DMA Channel 6 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _DMAC7 { &IFS1, &IEC1, &IPC10, _IFS1_DMA7IF_MASK, _IPC10_DMA7IS_POSITION, _IPC10_DMA7IP_POSITION }, // DMA Channel 7 #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 }, #endif #ifdef _USB { &IFS1, &IEC1, &IPC11, _IFS1_USBIF_MASK, _IPC11_USBIS_POSITION, _IPC11_USBIP_POSITION } // USB #else { (VUINT *)0, (VUINT *)0, (VUINT *)0, 0, 0, 0 } #endif // driver info }; void INTClearFlag(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; tbl->ifs[SFR_CLR] = tbl->mask; } void INTSetFlag(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; tbl->ifs[SFR_SET] = tbl->mask; } unsigned int INTGetFlag(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; return (*tbl->ifs & tbl->mask); } void INTEnable(INT_SOURCE source, unsigned int enable) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; if(enable) tbl->iec[SFR_SET] = tbl->mask; else tbl->iec[SFR_CLR] = tbl->mask; } unsigned int INTGetEnable(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; return (*tbl->iec & tbl->mask); } void INTSetPriority(INT_SOURCE source, unsigned int priority) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; tbl->ipc[SFR_CLR] = (7 << tbl->pri_shift); priority <<= tbl->pri_shift; tbl->ipc[SFR_SET] = priority; } unsigned int INTGetPriority(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; return (*tbl->ipc >> tbl->pri_shift); } void INTSetSubPriority(INT_SOURCE source, unsigned int subPriority) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; tbl->ipc[SFR_CLR] = (2 << tbl->sub_shift); subPriority <<= tbl->sub_shift; tbl->ipc[SFR_SET] = subPriority; } unsigned int INTGetSubPriority(INT_SOURCE source) { INT_TBL_ENTRY *tbl; tbl = (INT_TBL_ENTRY *)__IntTbl + source; return (*tbl->ipc >> tbl->sub_shift); }