//########################################################################### // // FILE: F2837xD_cla.h // // TITLE: CLA Register Definitions. // //########################################################################### // $TI Release: F2837xD Support Library v3.05.00.00 $ // $Release Date: Tue Jun 26 03:15:23 CDT 2018 $ // $Copyright: // Copyright (C) 2013-2018 Texas Instruments Incorporated - http://www.ti.com/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // $ //########################################################################### #ifndef __F2837xD_CLA_H__ #define __F2837xD_CLA_H__ #ifdef __cplusplus extern "C" { #endif //--------------------------------------------------------------------------- // CLA Individual Register Bit Definitions: struct MCTL_BITS { // bits description Uint16 HARDRESET:1; // 0 Hard Reset Uint16 SOFTRESET:1; // 1 Soft Reset Uint16 IACKE:1; // 2 IACK enable Uint16 rsvd1:13; // 15:3 Reserved }; union MCTL_REG { Uint16 all; struct MCTL_BITS bit; }; struct MIFR_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Flag Uint16 INT2:1; // 1 Task 2 Interrupt Flag Uint16 INT3:1; // 2 Task 3 Interrupt Flag Uint16 INT4:1; // 3 Task 4 Interrupt Flag Uint16 INT5:1; // 4 Task 5 Interrupt Flag Uint16 INT6:1; // 5 Task 6 Interrupt Flag Uint16 INT7:1; // 6 Task 7 Interrupt Flag Uint16 INT8:1; // 7 Task 8 Interrupt Flag Uint16 rsvd1:8; // 15:8 Reserved }; union MIFR_REG { Uint16 all; struct MIFR_BITS bit; }; struct MIOVF_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Overflow Flag Uint16 INT2:1; // 1 Task 2 Interrupt Overflow Flag Uint16 INT3:1; // 2 Task 3 Interrupt Overflow Flag Uint16 INT4:1; // 3 Task 4 Interrupt Overflow Flag Uint16 INT5:1; // 4 Task 5 Interrupt Overflow Flag Uint16 INT6:1; // 5 Task 6 Interrupt Overflow Flag Uint16 INT7:1; // 6 Task 7 Interrupt Overflow Flag Uint16 INT8:1; // 7 Task 8 Interrupt Overflow Flag Uint16 rsvd1:8; // 15:8 Reserved }; union MIOVF_REG { Uint16 all; struct MIOVF_BITS bit; }; struct MIFRC_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Force Uint16 INT2:1; // 1 Task 2 Interrupt Force Uint16 INT3:1; // 2 Task 3 Interrupt Force Uint16 INT4:1; // 3 Task 4 Interrupt Force Uint16 INT5:1; // 4 Task 5 Interrupt Force Uint16 INT6:1; // 5 Task 6 Interrupt Force Uint16 INT7:1; // 6 Task 7 Interrupt Force Uint16 INT8:1; // 7 Task 8 Interrupt Force Uint16 rsvd1:8; // 15:8 Reserved }; union MIFRC_REG { Uint16 all; struct MIFRC_BITS bit; }; struct MICLR_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Flag Clear Uint16 INT2:1; // 1 Task 2 Interrupt Flag Clear Uint16 INT3:1; // 2 Task 3 Interrupt Flag Clear Uint16 INT4:1; // 3 Task 4 Interrupt Flag Clear Uint16 INT5:1; // 4 Task 5 Interrupt Flag Clear Uint16 INT6:1; // 5 Task 6 Interrupt Flag Clear Uint16 INT7:1; // 6 Task 7 Interrupt Flag Clear Uint16 INT8:1; // 7 Task 8 Interrupt Flag Clear Uint16 rsvd1:8; // 15:8 Reserved }; union MICLR_REG { Uint16 all; struct MICLR_BITS bit; }; struct MICLROVF_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Overflow Flag Clear Uint16 INT2:1; // 1 Task 2 Interrupt Overflow Flag Clear Uint16 INT3:1; // 2 Task 3 Interrupt Overflow Flag Clear Uint16 INT4:1; // 3 Task 4 Interrupt Overflow Flag Clear Uint16 INT5:1; // 4 Task 5 Interrupt Overflow Flag Clear Uint16 INT6:1; // 5 Task 6 Interrupt Overflow Flag Clear Uint16 INT7:1; // 6 Task 7 Interrupt Overflow Flag Clear Uint16 INT8:1; // 7 Task 8 Interrupt Overflow Flag Clear Uint16 rsvd1:8; // 15:8 Reserved }; union MICLROVF_REG { Uint16 all; struct MICLROVF_BITS bit; }; struct MIER_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Interrupt Enable Uint16 INT2:1; // 1 Task 2 Interrupt Enable Uint16 INT3:1; // 2 Task 3 Interrupt Enable Uint16 INT4:1; // 3 Task 4 Interrupt Enable Uint16 INT5:1; // 4 Task 5 Interrupt Enable Uint16 INT6:1; // 5 Task 6 Interrupt Enable Uint16 INT7:1; // 6 Task 7 Interrupt Enable Uint16 INT8:1; // 7 Task 8 Interrupt Enable Uint16 rsvd1:8; // 15:8 Reserved }; union MIER_REG { Uint16 all; struct MIER_BITS bit; }; struct MIRUN_BITS { // bits description Uint16 INT1:1; // 0 Task 1 Run Status Uint16 INT2:1; // 1 Task 2 Run Status Uint16 INT3:1; // 2 Task 3 Run Status Uint16 INT4:1; // 3 Task 4 Run Status Uint16 INT5:1; // 4 Task 5 Run Status Uint16 INT6:1; // 5 Task 6 Run Status Uint16 INT7:1; // 6 Task 7 Run Status Uint16 INT8:1; // 7 Task 8 Run Status Uint16 rsvd1:8; // 15:8 Reserved }; union MIRUN_REG { Uint16 all; struct MIRUN_BITS bit; }; struct _MSTF_BITS { // bits description Uint16 LVF:1; // 0 Latched Overflow Flag Uint16 LUF:1; // 1 Latched Underflow Flag Uint16 NF:1; // 2 Negative Float Flag Uint16 ZF:1; // 3 Zero Float Flag Uint16 rsvd1:2; // 5:4 Reserved Uint16 TF:1; // 6 Test Flag Uint16 rsvd2:2; // 8:7 Reserved Uint16 RNDF32:1; // 9 Round 32-bit Floating-Point Mode Uint16 rsvd3:1; // 10 Reserved Uint16 MEALLOW:1; // 11 MEALLOW Status Uint32 _RPC:16; // 27:12 Return PC Uint16 rsvd4:4; // 31:28 Reserved }; union _MSTF_REG { Uint32 all; struct _MSTF_BITS bit; }; union MR_REG { Uint32 i32; float f32; }; struct CLA_REGS { Uint16 MVECT1; // Task Interrupt Vector Uint16 MVECT2; // Task Interrupt Vector Uint16 MVECT3; // Task Interrupt Vector Uint16 MVECT4; // Task Interrupt Vector Uint16 MVECT5; // Task Interrupt Vector Uint16 MVECT6; // Task Interrupt Vector Uint16 MVECT7; // Task Interrupt Vector Uint16 MVECT8; // Task Interrupt Vector Uint16 rsvd1[8]; // Reserved union MCTL_REG MCTL; // Control Register Uint16 rsvd2[15]; // Reserved union MIFR_REG MIFR; // Interrupt Flag Register union MIOVF_REG MIOVF; // Interrupt Overflow Flag Register union MIFRC_REG MIFRC; // Interrupt Force Register union MICLR_REG MICLR; // Interrupt Flag Clear Register union MICLROVF_REG MICLROVF; // Interrupt Overflow Flag Clear Register union MIER_REG MIER; // Interrupt Enable Register union MIRUN_REG MIRUN; // Interrupt Run Status Register Uint16 rsvd3; // Reserved Uint16 _MPC; // CLA Program Counter Uint16 rsvd4; // Reserved Uint16 _MAR0; // CLA Auxiliary Register 0 Uint16 _MAR1; // CLA Auxiliary Register 1 Uint16 rsvd5[2]; // Reserved union _MSTF_REG _MSTF; // CLA Floating-Point Status Register union MR_REG _MR0; // CLA Floating-Point Result Register 0 Uint16 rsvd6[2]; // Reserved union MR_REG _MR1; // CLA Floating-Point Result Register 1 Uint16 rsvd7[2]; // Reserved union MR_REG _MR2; // CLA Floating-Point Result Register 2 Uint16 rsvd8[2]; // Reserved union MR_REG _MR3; // CLA Floating-Point Result Register 3 }; struct SOFTINTEN_BITS { // bits description Uint16 TASK1:1; // 0 Task 1 Software Interrupt Enable Uint16 TASK2:1; // 1 Task 2 Software Interrupt Enable Uint16 TASK3:1; // 2 Task 3 Software Interrupt Enable Uint16 TASK4:1; // 3 Task 4 Software Interrupt Enable Uint16 TASK5:1; // 4 Task 5 Software Interrupt Enable Uint16 TASK6:1; // 5 Task 6 Software Interrupt Enable Uint16 TASK7:1; // 6 Task 7 Software Interrupt Enable Uint16 TASK8:1; // 7 Task 8 Software Interrupt Enable Uint16 rsvd1:8; // 15:8 Reserved Uint16 rsvd2:16; // 31:16 Reserved }; union SOFTINTEN_REG { Uint32 all; struct SOFTINTEN_BITS bit; }; struct SOFTINTFRC_BITS { // bits description Uint16 TASK1:1; // 0 Task 1 Software Interrupt Force Uint16 TASK2:1; // 1 Task 2 Software Interrupt Force Uint16 TASK3:1; // 2 Task 3 Software Interrupt Force Uint16 TASK4:1; // 3 Task 4 Software Interrupt Force Uint16 TASK5:1; // 4 Task 5 Software Interrupt Force Uint16 TASK6:1; // 5 Task 6 Software Interrupt Force Uint16 TASK7:1; // 6 Task 7 Software Interrupt Force Uint16 TASK8:1; // 7 Task 8 Software Interrupt Force Uint16 rsvd1:8; // 15:8 Reserved Uint16 rsvd2:16; // 31:16 Reserved }; union SOFTINTFRC_REG { Uint32 all; struct SOFTINTFRC_BITS bit; }; struct CLA_SOFTINT_REGS { union SOFTINTEN_REG SOFTINTEN; // CLA Software Interrupt Enable Register union SOFTINTFRC_REG SOFTINTFRC; // CLA Software Interrupt Force Register }; //--------------------------------------------------------------------------- // CLA External References & Function Declarations: // #ifdef CPU1 extern volatile struct CLA_SOFTINT_REGS Cla1SoftIntRegs; extern volatile struct CLA_REGS Cla1Regs; #endif #ifdef CPU2 extern volatile struct CLA_SOFTINT_REGS Cla1SoftIntRegs; extern volatile struct CLA_REGS Cla1Regs; #endif #ifdef __cplusplus } #endif /* extern "C" */ #endif //=========================================================================== // End of file. //===========================================================================