Use TEST macro where possible

2.0.x
Scott Lahteine 6 years ago
parent 12a270fd29
commit dfdbd1e75f

@ -95,38 +95,38 @@
constexpr uint8_t STST_bp = 31; constexpr uint8_t STST_bp = 31;
#endif #endif
TMC_driver_data data; TMC_driver_data data;
data.drv_status = st.DRV_STATUS(); const auto ds = data.drv_status = st.DRV_STATUS();
#ifdef __AVR__ #ifdef __AVR__
// 8-bit optimization saves up to 70 bytes of PROGMEM per axis // 8-bit optimization saves up to 70 bytes of PROGMEM per axis
uint8_t spart; uint8_t spart;
#if ENABLED(TMC_DEBUG) #if ENABLED(TMC_DEBUG)
data.sg_result = data.drv_status & SG_RESULT_bm; data.sg_result = ds & SG_RESULT_bm;
spart = data.drv_status >> 8; spart = ds >> 8;
data.is_stealth = !!(spart & _BV(STEALTH_bp - 8)); data.is_stealth = TEST(spart, STEALTH_bp - 8);
spart = data.drv_status >> 16; spart = ds >> 16;
data.cs_actual = spart & (CS_ACTUAL_bm >> 16); data.cs_actual = spart & (CS_ACTUAL_bm >> 16);
#endif #endif
spart = data.drv_status >> 24; spart = ds >> 24;
data.is_ot = !!(spart & _BV(OT_bp - 24)); data.is_ot = TEST(spart, OT_bp - 24);
data.is_otpw = !!(spart & _BV(OTPW_bp - 24)); data.is_otpw = TEST(spart, OTPW_bp - 24);
data.is_s2g = !!(spart & (S2G_bm >> 24)); data.is_s2g = !!(spart & (S2G_bm >> 24));
#if ENABLED(TMC_DEBUG) #if ENABLED(TMC_DEBUG)
data.is_stall = !!(spart & _BV(STALL_GUARD_bp - 24)); data.is_stall = TEST(spart, STALL_GUARD_bp - 24);
data.is_standstill = !!(spart & _BV(STST_bp - 24)); data.is_standstill = TEST(spart, STST_bp - 24);
data.sg_result_reasonable = !data.is_standstill; // sg_result has no reasonable meaning while standstill data.sg_result_reasonable = !data.is_standstill; // sg_result has no reasonable meaning while standstill
#endif #endif
#else // !__AVR__ #else // !__AVR__
data.is_ot = !!(data.drv_status & _BV(OT_bp)); data.is_ot = TEST(ds, OT_bp);
data.is_otpw = !!(data.drv_status & _BV(OTPW_bp)); data.is_otpw = TEST(ds, OTPW_bp);
data.is_s2g = !!(data.drv_status & S2G_bm); data.is_s2g = !!(ds & S2G_bm);
#if ENABLED(TMC_DEBUG) #if ENABLED(TMC_DEBUG)
constexpr uint8_t CS_ACTUAL_sb = 16; constexpr uint8_t CS_ACTUAL_sb = 16;
data.sg_result = data.drv_status & SG_RESULT_bm; data.sg_result = ds & SG_RESULT_bm;
data.is_stealth = !!(data.drv_status & _BV(STEALTH_bp)); data.is_stealth = TEST(ds, STEALTH_bp);
data.cs_actual = (data.drv_status & CS_ACTUAL_bm) >> CS_ACTUAL_sb; data.cs_actual = (ds & CS_ACTUAL_bm) >> CS_ACTUAL_sb;
data.is_stall = !!(data.drv_status & _BV(STALL_GUARD_bp)); data.is_stall = TEST(ds, STALL_GUARD_bp);
data.is_standstill = !!(data.drv_status & _BV(STST_bp)); data.is_standstill = TEST(ds, STST_bp);
data.sg_result_reasonable = !data.is_standstill; // sg_result has no reasonable meaning while standstill data.sg_result_reasonable = !data.is_standstill; // sg_result has no reasonable meaning while standstill
#endif #endif
@ -147,25 +147,25 @@
constexpr uint8_t OTPW_bp = 0, OT_bp = 1; constexpr uint8_t OTPW_bp = 0, OT_bp = 1;
constexpr uint8_t S2G_bm = 0b11110; // 2..5 constexpr uint8_t S2G_bm = 0b11110; // 2..5
TMC_driver_data data; TMC_driver_data data;
data.drv_status = st.DRV_STATUS(); const auto ds = data.drv_status = st.DRV_STATUS();
data.is_otpw = !!(data.drv_status & _BV(OTPW_bp)); data.is_otpw = TEST(ds, OTPW_bp);
data.is_ot = !!(data.drv_status & _BV(OT_bp)); data.is_ot = TEST(ds, OT_bp);
data.is_s2g = !!(data.drv_status & S2G_bm); data.is_s2g = !!(ds & S2G_bm);
#if ENABLED(TMC_DEBUG) #if ENABLED(TMC_DEBUG)
constexpr uint32_t CS_ACTUAL_bm = 0x1F0000; // 16:20 constexpr uint32_t CS_ACTUAL_bm = 0x1F0000; // 16:20
constexpr uint8_t STEALTH_bp = 30, STST_bp = 31; constexpr uint8_t STEALTH_bp = 30, STST_bp = 31;
#ifdef __AVR__ #ifdef __AVR__
// 8-bit optimization saves up to 12 bytes of PROGMEM per axis // 8-bit optimization saves up to 12 bytes of PROGMEM per axis
uint8_t spart = data.drv_status >> 16; uint8_t spart = ds >> 16;
data.cs_actual = spart & (CS_ACTUAL_bm >> 16); data.cs_actual = spart & (CS_ACTUAL_bm >> 16);
spart = data.drv_status >> 24; spart = ds >> 24;
data.is_stealth = !!(spart & _BV(STEALTH_bp - 24)); data.is_stealth = TEST(spart, STEALTH_bp - 24);
data.is_standstill = !!(spart & _BV(STST_bp - 24)); data.is_standstill = TEST(spart, STST_bp - 24);
#else #else
constexpr uint8_t CS_ACTUAL_sb = 16; constexpr uint8_t CS_ACTUAL_sb = 16;
data.cs_actual = (data.drv_status & CS_ACTUAL_bm) >> CS_ACTUAL_sb; data.cs_actual = (ds & CS_ACTUAL_bm) >> CS_ACTUAL_sb;
data.is_stealth = !!(data.drv_status & _BV(STEALTH_bp)); data.is_stealth = TEST(ds, STEALTH_bp);
data.is_standstill = !!(data.drv_status & _BV(STST_bp)); data.is_standstill = TEST(ds, STST_bp);
#endif #endif
#if HAS_STALLGUARD #if HAS_STALLGUARD
data.sg_result_reasonable = false; data.sg_result_reasonable = false;
@ -186,18 +186,18 @@
constexpr uint8_t OT_bp = 1, OTPW_bp = 2; constexpr uint8_t OT_bp = 1, OTPW_bp = 2;
constexpr uint8_t S2G_bm = 0b11000; constexpr uint8_t S2G_bm = 0b11000;
TMC_driver_data data; TMC_driver_data data;
data.drv_status = st.DRVSTATUS(); const auto ds = data.drv_status = st.DRVSTATUS();
uint8_t spart = data.drv_status & 0xFF; uint8_t spart = ds & 0xFF;
data.is_otpw = !!(spart & _BV(OTPW_bp)); data.is_otpw = TEST(spart, OTPW_bp);
data.is_ot = !!(spart & _BV(OT_bp)); data.is_ot = TEST(spart, OT_bp);
data.is_s2g = !!(data.drv_status & S2G_bm); data.is_s2g = !!(ds & S2G_bm);
#if ENABLED(TMC_DEBUG) #if ENABLED(TMC_DEBUG)
constexpr uint8_t STALL_GUARD_bp = 0; constexpr uint8_t STALL_GUARD_bp = 0;
constexpr uint8_t STST_bp = 7, SG_RESULT_sp = 10; constexpr uint8_t STST_bp = 7, SG_RESULT_sp = 10;
constexpr uint32_t SG_RESULT_bm = 0xFFC00; // 10:19 constexpr uint32_t SG_RESULT_bm = 0xFFC00; // 10:19
data.is_stall = !!(spart & _BV(STALL_GUARD_bp)); data.is_stall = TEST(spart, STALL_GUARD_bp);
data.is_standstill = !!(spart & _BV(STST_bp)); data.is_standstill = TEST(spart, STST_bp);
data.sg_result = (data.drv_status & SG_RESULT_bm) >> SG_RESULT_sp; data.sg_result = (ds & SG_RESULT_bm) >> SG_RESULT_sp;
data.sg_result_reasonable = true; data.sg_result_reasonable = true;
#endif #endif
return data; return data;

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