/*! \file Trice8.h \author thomas.hoehenleitner [at] seerose.net *******************************************************************************/ #if TRICE_DEFAULT_PARAMETER_BIT_WIDTH == 8 // #define TRICE_0 TRICE8_0 //!< Default parameter bit width for 0 parameter count TRICE is 8. #define TRICE_1 TRICE8_1 //!< Default parameter bit width for 1 parameter count TRICE is 8. #define TRICE_2 TRICE8_2 //!< Default parameter bit width for 2 parameter count TRICE is 8. #define TRICE_3 TRICE8_3 //!< Default parameter bit width for 3 parameter count TRICE is 8. #define TRICE_4 TRICE8_4 //!< Default parameter bit width for 4 parameter count TRICE is 8. #define TRICE_5 TRICE8_5 //!< Default parameter bit width for 5 parameter count TRICE is 8. #define TRICE_6 TRICE8_6 //!< Default parameter bit width for 6 parameter count TRICE is 8. #define TRICE_7 TRICE8_7 //!< Default parameter bit width for 7 parameter count TRICE is 8. #define TRICE_8 TRICE8_8 //!< Default parameter bit width for 8 parameter count TRICE is 8. #define TRICE_9 TRICE8_9 //!< Default parameter bit width for 9 parameter count TRICE is 8. #define TRICE_10 TRICE8_10 //!< Default parameter bit width for 10 parameter count TRICE is 8. #define TRICE_11 TRICE8_11 //!< Default parameter bit width for 11 parameter count TRICE is 8. #define TRICE_12 TRICE8_12 //!< Default parameter bit width for 12 parameter count TRICE is 8. // #define trice_0 trice8_0 //!< Default parameter bit width for 0 parameter count trice is 8. #define trice_1 trice8_1 //!< Default parameter bit width for 1 parameter count trice is 8. #define trice_2 trice8_2 //!< Default parameter bit width for 2 parameter count trice is 8. #define trice_3 trice8_3 //!< Default parameter bit width for 3 parameter count trice is 8. #define trice_4 trice8_4 //!< Default parameter bit width for 4 parameter count trice is 8. #define trice_5 trice8_5 //!< Default parameter bit width for 5 parameter count trice is 8. #define trice_6 trice8_6 //!< Default parameter bit width for 6 parameter count trice is 8. #define trice_7 trice8_7 //!< Default parameter bit width for 7 parameter count trice is 8. #define trice_8 trice8_8 //!< Default parameter bit width for 8 parameter count trice is 8. #define trice_9 trice8_9 //!< Default parameter bit width for 9 parameter count trice is 8. #define trice_10 trice8_10 //!< Default parameter bit width for 10 parameter count trice is 8. #define trice_11 trice8_11 //!< Default parameter bit width for 11 parameter count trice is 8. #define trice_12 trice8_12 //!< Default parameter bit width for 12 parameter count trice is 8. // #define Trice_0 Trice8_0 //!< Default parameter bit width for 1 parameter count Trice is 8. #define Trice_1 Trice8_1 //!< Default parameter bit width for 1 parameter count Trice is 8. #define Trice_2 Trice8_2 //!< Default parameter bit width for 2 parameter count Trice is 8. #define Trice_3 Trice8_3 //!< Default parameter bit width for 3 parameter count Trice is 8. #define Trice_4 Trice8_4 //!< Default parameter bit width for 4 parameter count Trice is 8. #define Trice_5 Trice8_5 //!< Default parameter bit width for 5 parameter count Trice is 8. #define Trice_6 Trice8_6 //!< Default parameter bit width for 6 parameter count Trice is 8. #define Trice_7 Trice8_7 //!< Default parameter bit width for 7 parameter count Trice is 8. #define Trice_8 Trice8_8 //!< Default parameter bit width for 8 parameter count Trice is 8. #define Trice_9 Trice8_9 //!< Default parameter bit width for 9 parameter count Trice is 8. #define Trice_10 Trice8_10 //!< Default parameter bit width for 10 parameter count Trice is 8. #define Trice_11 Trice8_11 //!< Default parameter bit width for 11 parameter count Trice is 8. #define Trice_12 Trice8_12 //!< Default parameter bit width for 12 parameter count Trice is 8. // #define TRice_0 TRice8_0 //!< Default parameter bit width for 1 parameter count TRice is 8. #define TRice_1 TRice8_1 //!< Default parameter bit width for 1 parameter count TRice is 8. #define TRice_2 TRice8_2 //!< Default parameter bit width for 2 parameter count TRice is 8. #define TRice_3 TRice8_3 //!< Default parameter bit width for 3 parameter count TRice is 8. #define TRice_4 TRice8_4 //!< Default parameter bit width for 4 parameter count TRice is 8. #define TRice_5 TRice8_5 //!< Default parameter bit width for 5 parameter count TRice is 8. #define TRice_6 TRice8_6 //!< Default parameter bit width for 6 parameter count TRice is 8. #define TRice_7 TRice8_7 //!< Default parameter bit width for 7 parameter count TRice is 8. #define TRice_8 TRice8_8 //!< Default parameter bit width for 8 parameter count TRice is 8. #define TRice_9 TRice8_9 //!< Default parameter bit width for 9 parameter count TRice is 8. #define TRice_10 TRice8_10 //!< Default parameter bit width for 10 parameter count TRice is 8. #define TRice_11 TRice8_11 //!< Default parameter bit width for 11 parameter count TRice is 8. #define TRice_12 TRice8_12 //!< Default parameter bit width for 12 parameter count TRice is 8. #endif // #if TRICE_DEFAULT_PARAMETER_BIT_WIDTH == 8 //! TRICE8 inlining code for up to 12 8-bit parameters. #define TRICE8(tid, fmt, ...) TRICE_CONCAT2(TRICE8_, TRICE_COUNT_ARGUMENTS(__VA_ARGS__))(tid, fmt, ##__VA_ARGS__) //! TRICE8_B expects inside pFmt only one format specifier, which is used n times by using pFmt n times. //! It is usable for showing n 8-bit values. #define TRICE8_B TRICE_N //! TRICE8_F expects inside pFmt just a string which is assumed to be a remote function name. //! \li The trice tool displays the pFmt string followed by n times (value i). //! \li The idea behind is to generate an id - function pointer referece list from the generated til.json file to compile it into a remote device and execute the inside pFmt named function remotely. //! \li Look for "TRICE8_F example" inside triceCheck.c. //! Look for "TRICE8_F example" inside triceCheck.c. #define TRICE8_F TRICE8_B #define TRICE_BYTE0(v) ((uint8_t)(v)) //!< TRICE_BYTE0(v) is the 8-bit value v moved to the LL position in a 32-bit value 0xHH_HL_LH_LL. #define TRICE_BYTE1(v) (0x0000FF00 & ((uint32_t)(v) << 8)) //!< TRICE_BYTE1(v) is the 8-bit value v moved to the LH position in a 32-bit value 0xHH_HL_LH_LL. #define TRICE_BYTE2(v) (0x00FF0000 & ((uint32_t)(v) << 16)) //!< TRICE_BYTE2(v) is the 8-bit value v moved to the HL position in a 32-bit value 0xHH_HL_LH_LL. #define TRICE_BYTE3(v) ((uint32_t)(v) << 24) //!< TRICE_BYTE3(v) is the 8-bit value v moved to the HH position in a 32-bit value 0xHH_HL_LH_LL. //! TRICE_PUT8_1 transfers a single 8-bit parameter value to the Trice buffer. #define TRICE_PUT8_1(v0) TRICE_PUT(TRICE_BYTE0(v0)); #define TRICE_PUT8_2(v0, v1) TRICE_PUT(TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); #define TRICE_PUT8_3(v0, v1, v2) TRICE_PUT(TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); #define TRICE_PUT8_4(v0, v1, v2, v3) TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); #define TRICE_PUT8_5(v0, v1, v2, v3, v4) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE0(v4)); #define TRICE_PUT8_6(v0, v1, v2, v3, v4, v5) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); #define TRICE_PUT8_7(v0, v1, v2, v3, v4, v5, v6) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); #define TRICE_PUT8_8(v0, v1, v2, v3, v4, v5, v6, v7) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE3(v7) | TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); #define TRICE_PUT8_9(v0, v1, v2, v3, v4, v5, v6, v7, v8) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE3(v7) | TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); \ TRICE_PUT(TRICE_BYTE0(v8)); #define TRICE_PUT8_10(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE3(v7) | TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); \ TRICE_PUT(TRICE_BYTE1(v9) | TRICE_BYTE0(v8)); #define TRICE_PUT8_11(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE3(v7) | TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); \ TRICE_PUT(TRICE_BYTE2(v10) | TRICE_BYTE1(v9) | TRICE_BYTE0(v8)); #define TRICE_PUT8_12(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11) \ TRICE_PUT(TRICE_BYTE3(v3) | TRICE_BYTE2(v2) | TRICE_BYTE1(v1) | TRICE_BYTE0(v0)); \ TRICE_PUT(TRICE_BYTE3(v7) | TRICE_BYTE2(v6) | TRICE_BYTE1(v5) | TRICE_BYTE0(v4)); \ TRICE_PUT(TRICE_BYTE3(v11) | TRICE_BYTE2(v10) | TRICE_BYTE1(v9) | TRICE_BYTE0(v8)); // The following `TRICE` macro definitions are using the C preprocess to concatenate the code behind the sub-macros. // The sequence `tid` in this context is executable code `id(n)`, `Id(n)` or `ID(n)` defined in trice.h. // This works only with tid=`id(n)`, `Id(n)`, `ID(n)`. //! TRICE8_0 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value #define TRICE8_0(tid, pFmt) \ TRICE_ENTER tid; \ TRICE_CNTC(0); \ TRICE_LEAVE //! TRICE8_1 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 a 8 bit bit value #define TRICE8_1(tid, pFmt, v0) \ TRICE_ENTER tid; \ TRICE_CNTC(1); \ TRICE_PUT8_1(v0) \ TRICE_LEAVE //! TRICE8_2 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v1 are 8 bit bit values #define TRICE8_2(tid, pFmt, v0, v1) \ TRICE_ENTER tid; \ TRICE_CNTC(2); \ TRICE_PUT8_2(v0, v1); \ TRICE_LEAVE //! TRICE8_3 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v2 are 8 bit bit values #define TRICE8_3(tid, pFmt, v0, v1, v2) \ TRICE_ENTER tid; \ TRICE_CNTC(3); \ TRICE_PUT8_3(v0, v1, v2); \ TRICE_LEAVE //! TRICE8_4 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v3 are 8 bit bit values #define TRICE8_4(tid, pFmt, v0, v1, v2, v3) \ TRICE_ENTER tid; \ TRICE_CNTC(4); \ TRICE_PUT8_4(v0, v1, v2, v3); \ TRICE_LEAVE //! TRICE8_5 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v4 are 8 bit bit values #define TRICE8_5(tid, pFmt, v0, v1, v2, v3, v4) \ TRICE_ENTER tid; \ TRICE_CNTC(5); \ TRICE_PUT8_5(v0, v1, v2, v3, v4); \ TRICE_LEAVE //! TRICE8_6 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v5 are 8 bit bit values #define TRICE8_6(tid, pFmt, v0, v1, v2, v3, v4, v5) \ TRICE_ENTER tid; \ TRICE_CNTC(6); \ TRICE_PUT8_6(v0, v1, v2, v3, v4, v5); \ TRICE_LEAVE //! TRICE8_8 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v6 are 8 bit bit values #define TRICE8_7(tid, pFmt, v0, v1, v2, v3, v4, v5, v6) \ TRICE_ENTER tid; \ TRICE_CNTC(7); \ TRICE_PUT8_7(v0, v1, v2, v3, v4, v5, v6); \ TRICE_LEAVE //! TRICE8_8 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v7 are 8 bit bit values #define TRICE8_8(tid, pFmt, v0, v1, v2, v3, v4, v5, v6, v7) \ TRICE_ENTER tid; \ TRICE_CNTC(8); \ TRICE_PUT8_8(v0, v1, v2, v3, v4, v5, v6, v7); \ TRICE_LEAVE //! TRICE8_8 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v7 are 8 bit bit values #define TRICE8_9(tid, pFmt, v0, v1, v2, v3, v4, v5, v6, v7, v8) \ TRICE_ENTER tid; \ TRICE_CNTC(9); \ TRICE_PUT8_9(v0, v1, v2, v3, v4, v5, v6, v7, v8); \ TRICE_LEAVE //! TRICE8_8 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v7 are 8 bit bit values #define TRICE8_10(tid, pFmt, v0, v1, v2, v3, v4, v5, v6, v7, v8, v9) \ TRICE_ENTER tid; \ TRICE_CNTC(10); \ TRICE_PUT8_10(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9); \ TRICE_LEAVE //! TRICE8_8 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v7 are 8 bit bit values #define TRICE8_11(tid, pFmt, v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10) \ TRICE_ENTER tid; \ TRICE_CNTC(11); \ TRICE_PUT8_11(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10); \ TRICE_LEAVE //! TRICE8_12 writes trice data as fast as possible in a buffer. //! \param tid is a 16 bit Trice id in upper 2 bytes of a 32 bit value //! \param v0 - v11 are 8 bit bit values #define TRICE8_12(tid, pFmt, v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11) \ TRICE_ENTER tid; \ TRICE_CNTC(12); \ TRICE_PUT8_12(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11) \ TRICE_LEAVE