/* ** ################################################################### ** Version: rev. 2.5, 2014-05-06 ** Build: b140604 ** ** Abstract: ** Register bit field access macros. ** ** Copyright (c) 2014 Freescale Semiconductor, Inc. ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without modification, ** are permitted provided that the following conditions are met: ** ** o Redistributions of source code must retain the above copyright notice, this list ** of conditions and the following disclaimer. ** ** o 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. ** ** o Neither the name of Freescale Semiconductor, Inc. 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 HOLDER 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. ** ** http: www.freescale.com ** mail: support@freescale.com ** ** Revisions: ** - rev. 1.0 (2013-07-23) ** Initial version. ** - rev. 1.1 (2013-09-17) ** RM rev. 0.4 update. ** - rev. 2.0 (2013-10-29) ** Register accessor macros added to the memory map. ** Symbols for Processor Expert memory map compatibility added to the memory map. ** Startup file for gcc has been updated according to CMSIS 3.2. ** System initialization updated. ** - rev. 2.1 (2013-10-30) ** Definition of BITBAND macros updated to support peripherals with 32-bit acces disabled. ** - rev. 2.2 (2013-12-20) ** Update according to reference manual rev. 0.6, ** - rev. 2.3 (2014-01-13) ** Update according to reference manual rev. 0.61, ** - rev. 2.4 (2014-02-10) ** The declaration of clock configurations has been moved to separate header file system_MK22F51212.h ** - rev. 2.5 (2014-05-06) ** Update according to reference manual rev. 1.0, ** Update of system and startup files. ** Module access macro module_BASES replaced by module_BASE_PTRS. ** ** ################################################################### */ #ifndef _FSL_BITACCESS_H #define _FSL_BITACCESS_H 1 #include #include /** * @brief Macro to access a single bit of a 32-bit peripheral register (bit band region * 0x40000000 to 0x400FFFFF) using the bit-band alias region access. * @param Reg Register to access. * @param Bit Bit number to access. * @return Value of the targeted bit in the bit band region. */ #define BITBAND_ACCESS32(Reg,Bit) (*((uint32_t volatile*)(0x42000000u + (32u*((uint32_t)(Reg) - (uint32_t)0x40000000u)) + (4u*((uint32_t)(Bit)))))) /** * @brief Macro to access a single bit of a 16-bit peripheral register (bit band region * 0x40000000 to 0x400FFFFF) using the bit-band alias region access. * @param Reg Register to access. * @param Bit Bit number to access. * @return Value of the targeted bit in the bit band region. */ #define BITBAND_ACCESS16(Reg,Bit) (*((uint16_t volatile*)(0x42000000u + (32u*((uint32_t)(Reg) - (uint32_t)0x40000000u)) + (4u*((uint32_t)(Bit)))))) /** * @brief Macro to access a single bit of an 8-bit peripheral register (bit band region * 0x40000000 to 0x400FFFFF) using the bit-band alias region access. * @param Reg Register to access. * @param Bit Bit number to access. * @return Value of the targeted bit in the bit band region. */ #define BITBAND_ACCESS8(Reg,Bit) (*((uint8_t volatile*)(0x42000000u + (32u*((uint32_t)(Reg) - (uint32_t)0x40000000u)) + (4u*((uint32_t)(Bit)))))) /* * Macros for single instance registers */ #define BF_SET(reg, field) HW_##reg##_SET(BM_##reg##_##field) #define BF_CLR(reg, field) HW_##reg##_CLR(BM_##reg##_##field) #define BF_TOG(reg, field) HW_##reg##_TOG(BM_##reg##_##field) #define BF_SETV(reg, field, v) HW_##reg##_SET(BF_##reg##_##field(v)) #define BF_CLRV(reg, field, v) HW_##reg##_CLR(BF_##reg##_##field(v)) #define BF_TOGV(reg, field, v) HW_##reg##_TOG(BF_##reg##_##field(v)) #define BV_FLD(reg, field, sym) BF_##reg##_##field(BV_##reg##_##field##__##sym) #define BV_VAL(reg, field, sym) BV_##reg##_##field##__##sym #define BF_RD(reg, field) HW_##reg.B.field #define BF_WR(reg, field, v) BW_##reg##_##field(v) #define BF_CS1(reg, f1, v1) \ (HW_##reg##_CLR(BM_##reg##_##f1), \ HW_##reg##_SET(BF_##reg##_##f1(v1))) #define BF_CS2(reg, f1, v1, f2, v2) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2))) #define BF_CS3(reg, f1, v1, f2, v2, f3, v3) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3))) #define BF_CS4(reg, f1, v1, f2, v2, f3, v3, f4, v4) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4))) #define BF_CS5(reg, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5))) #define BF_CS6(reg, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6))) #define BF_CS7(reg, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7))) #define BF_CS8(reg, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8) \ (HW_##reg##_CLR(BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7 | \ BM_##reg##_##f8), \ HW_##reg##_SET(BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7) | \ BF_##reg##_##f8(v8))) /* * Macros for multiple instance registers */ #define BF_SETn(reg, n, field) HW_##reg##_SET(n, BM_##reg##_##field) #define BF_CLRn(reg, n, field) HW_##reg##_CLR(n, BM_##reg##_##field) #define BF_TOGn(reg, n, field) HW_##reg##_TOG(n, BM_##reg##_##field) #define BF_SETVn(reg, n, field, v) HW_##reg##_SET(n, BF_##reg##_##field(v)) #define BF_CLRVn(reg, n, field, v) HW_##reg##_CLR(n, BF_##reg##_##field(v)) #define BF_TOGVn(reg, n, field, v) HW_##reg##_TOG(n, BF_##reg##_##field(v)) #define BV_FLDn(reg, n, field, sym) BF_##reg##_##field(BV_##reg##_##field##__##sym) #define BV_VALn(reg, n, field, sym) BV_##reg##_##field##__##sym #define BF_RDn(reg, n, field) HW_##reg(n).B.field #define BF_WRn(reg, n, field, v) BW_##reg##_##field(n, v) #define BF_CS1n(reg, n, f1, v1) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1)))) #define BF_CS2n(reg, n, f1, v1, f2, v2) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2)))) #define BF_CS3n(reg, n, f1, v1, f2, v2, f3, v3) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3)))) #define BF_CS4n(reg, n, f1, v1, f2, v2, f3, v3, f4, v4) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4)))) #define BF_CS5n(reg, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5)))) #define BF_CS6n(reg, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6)))) #define BF_CS7n(reg, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7)))) #define BF_CS8n(reg, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8) \ (HW_##reg##_CLR(n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7 | \ BM_##reg##_##f8)), \ HW_##reg##_SET(n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7) | \ BF_##reg##_##f8(v8)))) /* * Macros for single instance MULTI-BLOCK registers */ #define BFn_SET(reg, blk, field) HW_##reg##_SET(blk, BM_##reg##_##field) #define BFn_CLR(reg, blk, field) HW_##reg##_CLR(blk, BM_##reg##_##field) #define BFn_TOG(reg, blk, field) HW_##reg##_TOG(blk, BM_##reg##_##field) #define BFn_SETV(reg, blk, field, v) HW_##reg##_SET(blk, BF_##reg##_##field(v)) #define BFn_CLRV(reg, blk, field, v) HW_##reg##_CLR(blk, BF_##reg##_##field(v)) #define BFn_TOGV(reg, blk, field, v) HW_##reg##_TOG(blk, BF_##reg##_##field(v)) #define BVn_FLD(reg, field, sym) BF_##reg##_##field(BV_##reg##_##field##__##sym) #define BVn_VAL(reg, field, sym) BV_##reg##_##field##__##sym #define BFn_RD(reg, blk, field) HW_##reg(blk).B.field #define BFn_WR(reg, blk, field, v) BW_##reg##_##field(blk, v) #define BFn_CS1(reg, blk, f1, v1) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1))) #define BFn_CS2(reg, blk, f1, v1, f2, v2) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2))) #define BFn_CS3(reg, blk, f1, v1, f2, v2, f3, v3) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3))) #define BFn_CS4(reg, blk, f1, v1, f2, v2, f3, v3, f4, v4) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4))) #define BFn_CS5(reg, blk, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5))) #define BFn_CS6(reg, blk, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6))) #define BFn_CS7(reg, blk, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7))) #define BFn_CS8(reg, blk, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8) \ (HW_##reg##_CLR(blk, BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7 | \ BM_##reg##_##f8), \ HW_##reg##_SET(blk, BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7) | \ BF_##reg##_##f8(v8))) /* * Macros for MULTI-BLOCK multiple instance registers */ #define BFn_SETn(reg, blk, n, field) HW_##reg##_SET(blk, n, BM_##reg##_##field) #define BFn_CLRn(reg, blk, n, field) HW_##reg##_CLR(blk, n, BM_##reg##_##field) #define BFn_TOGn(reg, blk, n, field) HW_##reg##_TOG(blk, n, BM_##reg##_##field) #define BFn_SETVn(reg, blk, n, field, v) HW_##reg##_SET(blk, n, BF_##reg##_##field(v)) #define BFn_CLRVn(reg, blk, n, field, v) HW_##reg##_CLR(blk, n, BF_##reg##_##field(v)) #define BFn_TOGVn(reg, blk, n, field, v) HW_##reg##_TOG(blk, n, BF_##reg##_##field(v)) #define BVn_FLDn(reg, blk, n, field, sym) BF_##reg##_##field(BV_##reg##_##field##__##sym) #define BVn_VALn(reg, blk, n, field, sym) BV_##reg##_##field##__##sym #define BFn_RDn(reg, blk, n, field) HW_##reg(n).B.field #define BFn_WRn(reg, blk, n, field, v) BW_##reg##_##field(n, v) #define BFn_CS1n(reg, blk, n, f1, v1) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1)))) #define BFn_CS2n(reg, blk, n, f1, v1, f2, v2) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2)))) #define BFn_CS3n(reg, blk, n, f1, v1, f2, v2, f3, v3) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3)))) #define BFn_CS4n(reg, blk, n, f1, v1, f2, v2, f3, v3, f4, v4) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4)))) #define BFn_CS5n(reg, blk, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5)))) #define BFn_CS6n(reg, blk, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6)))) #define BFn_CS7n(reg, blk, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7)))) #define BFn_CS8n(reg, blk, n, f1, v1, f2, v2, f3, v3, f4, v4, f5, v5, f6, v6, f7, v7, f8, v8) \ (HW_##reg##_CLR(blk, n, (BM_##reg##_##f1 | \ BM_##reg##_##f2 | \ BM_##reg##_##f3 | \ BM_##reg##_##f4 | \ BM_##reg##_##f5 | \ BM_##reg##_##f6 | \ BM_##reg##_##f7 | \ BM_##reg##_##f8)), \ HW_##reg##_SET(blk, n, (BF_##reg##_##f1(v1) | \ BF_##reg##_##f2(v2) | \ BF_##reg##_##f3(v3) | \ BF_##reg##_##f4(v4) | \ BF_##reg##_##f5(v5) | \ BF_##reg##_##f6(v6) | \ BF_##reg##_##f7(v7) | \ BF_##reg##_##f8(v8)))) #endif /* _FSL_BITACCESS_H */ /******************************************************************************/