Joe Knapp
Moved pl_status to public
Fork of
lib_mma8451q
by 
wayne roberts
mma8451q.cpp@3:6d0d5c53d825, 2015-11-17 (annotated)
- Committer:
- jknapp_smtc
- Date:
- Tue Nov 17 03:12:09 2015 +0000
- Revision:
- 3:6d0d5c53d825
- Parent:
- 2:4bc96749141e
Moved pl_status to public
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| dudmuck | 0:cb0046a629c1 | 1 | #include "mma8451q.h" |
| dudmuck | 0:cb0046a629c1 | 2 | /* turn on: CTRL_REG1 active_bit = 1 |
| dudmuck | 0:cb0046a629c1 | 3 | * back to standby: CTRL_REG1 active_bit = 0 |
| dudmuck | 0:cb0046a629c1 | 4 | */ |
| dudmuck | 0:cb0046a629c1 | 5 | |
| dudmuck | 0:cb0046a629c1 | 6 | /* STANDBY: SYSMOD = 00 */ |
| dudmuck | 0:cb0046a629c1 | 7 | |
| dudmuck | 0:cb0046a629c1 | 8 | /* |
| dudmuck | 0:cb0046a629c1 | 9 | * MMA8451 I2C address |
| dudmuck | 0:cb0046a629c1 | 10 | */ |
| dudmuck | 0:cb0046a629c1 | 11 | #define MMA8451_I2C_ADDRESS 0x38 //0x1C |
| dudmuck | 0:cb0046a629c1 | 12 | |
| dudmuck | 0:cb0046a629c1 | 13 | |
| dudmuck | 1:778b685c3ad0 | 14 | MMA8451Q::MMA8451Q(I2C& r, DigitalIn& int_pin) : m_i2c(r), m_int_pin(int_pin) |
| dudmuck | 0:cb0046a629c1 | 15 | { |
| dudmuck | 1:778b685c3ad0 | 16 | /* INT pins on this chip default to push-pull output */ |
| dudmuck | 1:778b685c3ad0 | 17 | write(MMA8451_CTRL_REG3, 0x01); // set PP_OD |
| dudmuck | 1:778b685c3ad0 | 18 | /* INT1 and INT2 are tied together */ |
| dudmuck | 0:cb0046a629c1 | 19 | |
| dudmuck | 0:cb0046a629c1 | 20 | } |
| dudmuck | 0:cb0046a629c1 | 21 | |
| dudmuck | 0:cb0046a629c1 | 22 | MMA8451Q::~MMA8451Q() |
| dudmuck | 0:cb0046a629c1 | 23 | { |
| dudmuck | 0:cb0046a629c1 | 24 | } |
| dudmuck | 0:cb0046a629c1 | 25 | |
| dudmuck | 0:cb0046a629c1 | 26 | void MMA8451Q::read(uint8_t addr, uint8_t *dst_buf, int length) |
| dudmuck | 0:cb0046a629c1 | 27 | { |
| dudmuck | 0:cb0046a629c1 | 28 | char cmd[2]; |
| dudmuck | 0:cb0046a629c1 | 29 | |
| dudmuck | 0:cb0046a629c1 | 30 | cmd[0] = addr; |
| dudmuck | 0:cb0046a629c1 | 31 | if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 1, true)) |
| dudmuck | 1:778b685c3ad0 | 32 | printf("MMA write-fail %02x\n", addr); |
| dudmuck | 0:cb0046a629c1 | 33 | if (m_i2c.read(MMA8451_I2C_ADDRESS, (char *)dst_buf, length)) |
| dudmuck | 1:778b685c3ad0 | 34 | printf("MMA read-fail\n"); |
| dudmuck | 0:cb0046a629c1 | 35 | } |
| dudmuck | 0:cb0046a629c1 | 36 | |
| dudmuck | 0:cb0046a629c1 | 37 | uint8_t MMA8451Q::read_single(uint8_t addr) |
| dudmuck | 0:cb0046a629c1 | 38 | { |
| dudmuck | 0:cb0046a629c1 | 39 | char cmd[2]; |
| dudmuck | 0:cb0046a629c1 | 40 | |
| dudmuck | 0:cb0046a629c1 | 41 | cmd[0] = addr; |
| dudmuck | 0:cb0046a629c1 | 42 | if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 1, true)) |
| dudmuck | 1:778b685c3ad0 | 43 | printf("MMA write-fail %02x\n", addr); |
| dudmuck | 0:cb0046a629c1 | 44 | if (m_i2c.read(MMA8451_I2C_ADDRESS, cmd, 1)) |
| dudmuck | 1:778b685c3ad0 | 45 | printf("MMA read-fail\n"); |
| dudmuck | 0:cb0046a629c1 | 46 | |
| dudmuck | 0:cb0046a629c1 | 47 | return cmd[0]; |
| dudmuck | 0:cb0046a629c1 | 48 | } |
| dudmuck | 0:cb0046a629c1 | 49 | |
| dudmuck | 0:cb0046a629c1 | 50 | void MMA8451Q::print_regs() |
| dudmuck | 0:cb0046a629c1 | 51 | { |
| dudmuck | 1:778b685c3ad0 | 52 | printf("ID: %02x\n", read_single(MMA8451_ID)); |
| dudmuck | 1:778b685c3ad0 | 53 | printf("sysmod:%02x\n", read_single(MMA8451_SYSMOD)); |
| dudmuck | 0:cb0046a629c1 | 54 | ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 1:778b685c3ad0 | 55 | printf("ctrl_reg1:%02x\n", ctrl_reg1.octet); |
| dudmuck | 1:778b685c3ad0 | 56 | printf("ctrl_reg2:%02x\n", read_single(MMA8451_CTRL_REG2)); |
| dudmuck | 1:778b685c3ad0 | 57 | printf("ctrl_reg3:%02x\n", read_single(MMA8451_CTRL_REG3)); /* TODO: PP_OD is bit 0 (1=open drain) */ |
| dudmuck | 1:778b685c3ad0 | 58 | printf("(int en) ctrl_reg4:%02x\n", read_single(MMA8451_CTRL_REG4)); |
| dudmuck | 1:778b685c3ad0 | 59 | printf("(int cfg) ctrl_reg5:%02x\n", read_single(MMA8451_CTRL_REG5)); |
| dudmuck | 1:778b685c3ad0 | 60 | printf("status:%02x\n", read_single(MMA8451_STATUS)); |
| dudmuck | 1:778b685c3ad0 | 61 | /* (interrupt status) int src at 0x0c (MMA8451_INT_SOURCE): data ready, motion/freefall, pulse, orientation, transient, auto sleep */ |
| dudmuck | 1:778b685c3ad0 | 62 | printf("INT_SOURCE:%02x\n", read_single(MMA8451_INT_SOURCE)); |
| dudmuck | 0:cb0046a629c1 | 63 | } |
| dudmuck | 0:cb0046a629c1 | 64 | |
| dudmuck | 0:cb0046a629c1 | 65 | void MMA8451Q::write(uint8_t addr, uint8_t data) |
| dudmuck | 0:cb0046a629c1 | 66 | { |
| dudmuck | 0:cb0046a629c1 | 67 | uint8_t cmd[2]; |
| dudmuck | 0:cb0046a629c1 | 68 | |
| dudmuck | 0:cb0046a629c1 | 69 | cmd[0] = addr; |
| dudmuck | 0:cb0046a629c1 | 70 | cmd[1] = data; |
| dudmuck | 0:cb0046a629c1 | 71 | |
| dudmuck | 0:cb0046a629c1 | 72 | if (m_i2c.write(MMA8451_I2C_ADDRESS, (char *)cmd, 2)) |
| dudmuck | 1:778b685c3ad0 | 73 | printf("MMA write-fail %02x\n", addr); |
| dudmuck | 0:cb0046a629c1 | 74 | } |
| dudmuck | 0:cb0046a629c1 | 75 | |
| dudmuck | 0:cb0046a629c1 | 76 | void MMA8451Q::set_active(char arg) |
| dudmuck | 0:cb0046a629c1 | 77 | { |
| dudmuck | 0:cb0046a629c1 | 78 | char cmd[2]; |
| dudmuck | 0:cb0046a629c1 | 79 | |
| dudmuck | 0:cb0046a629c1 | 80 | cmd[0] = MMA8451_CTRL_REG1; |
| dudmuck | 0:cb0046a629c1 | 81 | cmd[1] = arg; |
| dudmuck | 0:cb0046a629c1 | 82 | |
| dudmuck | 0:cb0046a629c1 | 83 | if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 2)) |
| dudmuck | 1:778b685c3ad0 | 84 | printf("MMA write-fail %02x\n", cmd[0]); |
| dudmuck | 0:cb0046a629c1 | 85 | } |
| dudmuck | 0:cb0046a629c1 | 86 | |
| dudmuck | 1:778b685c3ad0 | 87 | bool MMA8451Q::get_active(void) |
| dudmuck | 0:cb0046a629c1 | 88 | { |
| dudmuck | 0:cb0046a629c1 | 89 | uint8_t ret = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 1:778b685c3ad0 | 90 | //printf("CTRL_REG1: %x\n", ret); |
| dudmuck | 1:778b685c3ad0 | 91 | if (ret & 1) |
| dudmuck | 1:778b685c3ad0 | 92 | return true; |
| dudmuck | 1:778b685c3ad0 | 93 | else |
| dudmuck | 1:778b685c3ad0 | 94 | return false; |
| dudmuck | 0:cb0046a629c1 | 95 | } |
| dudmuck | 0:cb0046a629c1 | 96 | |
| dudmuck | 2:4bc96749141e | 97 | void MMA8451Q::orient_detect() |
| dudmuck | 2:4bc96749141e | 98 | { |
| dudmuck | 2:4bc96749141e | 99 | uint8_t v; |
| dudmuck | 2:4bc96749141e | 100 | |
| dudmuck | 2:4bc96749141e | 101 | ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 2:4bc96749141e | 102 | /* AN4068 Sensors Freescale Semiconductor, Inc. |
| dudmuck | 2:4bc96749141e | 103 | * 4.1 Example Steps for Implementing the Embedded Orientation Detection */ |
| dudmuck | 2:4bc96749141e | 104 | |
| dudmuck | 2:4bc96749141e | 105 | /* Step 1: Put the part into Standby Mode */ |
| dudmuck | 2:4bc96749141e | 106 | ctrl_reg1.bits.ACTIVE = 0; |
| dudmuck | 2:4bc96749141e | 107 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 2:4bc96749141e | 108 | |
| dudmuck | 2:4bc96749141e | 109 | /* Step 2: Set the data rate to 50 Hz (for example, but can choose any sample rate). */ |
| dudmuck | 2:4bc96749141e | 110 | ctrl_reg1.bits.DR = 4; |
| dudmuck | 2:4bc96749141e | 111 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 2:4bc96749141e | 112 | |
| dudmuck | 2:4bc96749141e | 113 | /* Step 3: Set the PL_EN bit in Register 0x11 PL_CFG. This will enable the orientation detection. */ |
| dudmuck | 2:4bc96749141e | 114 | v = read_single(MMA8451_PL_CFG); |
| dudmuck | 2:4bc96749141e | 115 | v |= 0x40; |
| dudmuck | 2:4bc96749141e | 116 | write(MMA8451_PL_CFG, v); |
| dudmuck | 2:4bc96749141e | 117 | |
| dudmuck | 2:4bc96749141e | 118 | /* Step 4: Set the Back/Front Angle trip points in register 0x13 following the table in the data sheet. */ |
| dudmuck | 2:4bc96749141e | 119 | v = read_single(MMA8451_PL_BF_ZCOMP); |
| dudmuck | 2:4bc96749141e | 120 | /*v &= 0x3f; |
| dudmuck | 2:4bc96749141e | 121 | v |= 0xX0; |
| dudmuck | 2:4bc96749141e | 122 | write(MMA8451_PL_BF_ZCOMP, v);*/ |
| dudmuck | 2:4bc96749141e | 123 | |
| dudmuck | 2:4bc96749141e | 124 | /* Step 5: Set the Z-Lockout angle trip point in register 0x13 following the table in the data sheet. */ |
| dudmuck | 2:4bc96749141e | 125 | /* v &= 0xf8; |
| dudmuck | 2:4bc96749141e | 126 | v |= 0x0X; |
| dudmuck | 2:4bc96749141e | 127 | */ |
| dudmuck | 2:4bc96749141e | 128 | |
| dudmuck | 2:4bc96749141e | 129 | /* Step 6: Set the Trip Threshold Angle */ |
| dudmuck | 2:4bc96749141e | 130 | v = read_single(MMA8451_PL_THS_REG); |
| dudmuck | 2:4bc96749141e | 131 | /*v &= 0x07; |
| dudmuck | 2:4bc96749141e | 132 | v |= 0x0X << 3; |
| dudmuck | 2:4bc96749141e | 133 | write(MMA8451_PL_THS_REG. v);*/ |
| dudmuck | 2:4bc96749141e | 134 | |
| dudmuck | 2:4bc96749141e | 135 | /* Step 7: Set the Hysteresis Angle */ |
| dudmuck | 2:4bc96749141e | 136 | v = read_single(MMA8451_PL_THS_REG); |
| dudmuck | 2:4bc96749141e | 137 | /*v &= 0xf8; |
| dudmuck | 2:4bc96749141e | 138 | v |= 0x0X; |
| dudmuck | 2:4bc96749141e | 139 | write(MMA8451_PL_THS_REG. v);*/ |
| dudmuck | 2:4bc96749141e | 140 | |
| dudmuck | 2:4bc96749141e | 141 | /* Step 8: Register 0x2D, Control Register 4 configures all embedded features for interrupt */ |
| dudmuck | 2:4bc96749141e | 142 | ctrl_reg4.octet = 0; |
| dudmuck | 2:4bc96749141e | 143 | ctrl_reg4.bits.INT_EN_LNDPRT = 1; |
| dudmuck | 2:4bc96749141e | 144 | write(MMA8451_CTRL_REG4, ctrl_reg4.octet); |
| dudmuck | 2:4bc96749141e | 145 | |
| dudmuck | 2:4bc96749141e | 146 | /* Step 9: Register 0x2E is Control Register 5 which gives the option of routing the interrupt to either INT1 or INT2 */ |
| dudmuck | 2:4bc96749141e | 147 | ctrl_reg5.octet = 0; |
| dudmuck | 2:4bc96749141e | 148 | ctrl_reg5.bits.INT_CFG_LNDPRT = 1; |
| dudmuck | 2:4bc96749141e | 149 | write(MMA8451_CTRL_REG5, ctrl_reg5.octet); |
| dudmuck | 2:4bc96749141e | 150 | |
| dudmuck | 2:4bc96749141e | 151 | /* Step 10: Set the debounce counter in register 0x12 */ |
| dudmuck | 2:4bc96749141e | 152 | write(MMA8451_PL_COUNT, 5); // 5: debounce to 100ms at 50hz |
| dudmuck | 2:4bc96749141e | 153 | |
| dudmuck | 2:4bc96749141e | 154 | /* Step 11: Put the device in Active Mode */ |
| dudmuck | 2:4bc96749141e | 155 | ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 2:4bc96749141e | 156 | ctrl_reg1.bits.ACTIVE = 1; |
| dudmuck | 2:4bc96749141e | 157 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 2:4bc96749141e | 158 | |
| dudmuck | 2:4bc96749141e | 159 | /* Step 12: in service() function */ |
| dudmuck | 2:4bc96749141e | 160 | } |
| dudmuck | 2:4bc96749141e | 161 | |
| dudmuck | 0:cb0046a629c1 | 162 | |
| dudmuck | 0:cb0046a629c1 | 163 | void MMA8451Q::transient_detect() |
| dudmuck | 0:cb0046a629c1 | 164 | { |
| dudmuck | 0:cb0046a629c1 | 165 | ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 0:cb0046a629c1 | 166 | /* AN4071 Sensors Freescale Semiconductor, Inc. |
| dudmuck | 0:cb0046a629c1 | 167 | * 7.1 Example Steps for Configuring Transient Detection |
| dudmuck | 0:cb0046a629c1 | 168 | * Change in X or Y > 0.5g for 50 ms at 100 Hz ODR, Normal mode */ |
| dudmuck | 0:cb0046a629c1 | 169 | |
| dudmuck | 0:cb0046a629c1 | 170 | /* Step 1: Put the device in Standby Mode: Register 0x2A CTRL_REG1 */ |
| dudmuck | 0:cb0046a629c1 | 171 | ctrl_reg1.bits.ACTIVE = 0; |
| dudmuck | 0:cb0046a629c1 | 172 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 0:cb0046a629c1 | 173 | ctrl_reg1.bits.DR = 3; //Set device in 100 Hz ODR, Standby |
| dudmuck | 0:cb0046a629c1 | 174 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 0:cb0046a629c1 | 175 | |
| dudmuck | 0:cb0046a629c1 | 176 | /* Step 2: Enable X and Y Axes and enable the latch: Register 0x1D Configuration Register */ |
| dudmuck | 0:cb0046a629c1 | 177 | transient_cfg.octet = 0; |
| dudmuck | 0:cb0046a629c1 | 178 | transient_cfg.bits.ELE = 1; // enable latch |
| dudmuck | 0:cb0046a629c1 | 179 | transient_cfg.bits.YTEFE = 1; // enable Y |
| dudmuck | 0:cb0046a629c1 | 180 | transient_cfg.bits.XTEFE = 1; // enable X |
| dudmuck | 0:cb0046a629c1 | 181 | transient_cfg.bits.ZTEFE = 1; // enable Z |
| dudmuck | 0:cb0046a629c1 | 182 | write(MMA8451_TRANSIENT_CFG, transient_cfg.octet); |
| dudmuck | 0:cb0046a629c1 | 183 | |
| dudmuck | 0:cb0046a629c1 | 184 | /* Step 3: Set the Threshold: Register 0x1F |
| dudmuck | 0:cb0046a629c1 | 185 | * Note: Step count is 0.063g per count, 0.5g / 0.063g = 7.93. |
| dudmuck | 0:cb0046a629c1 | 186 | * Therefore set the threshold to 8 counts */ |
| dudmuck | 0:cb0046a629c1 | 187 | write(MMA8451_TRANSIENT_THS, 8); |
| dudmuck | 0:cb0046a629c1 | 188 | |
| dudmuck | 0:cb0046a629c1 | 189 | /* Step 4: Set the Debounce Counter for 50 ms: Register 0x20 |
| dudmuck | 0:cb0046a629c1 | 190 | * Note: 100 Hz ODR, therefore 10 ms step sizes */ |
| dudmuck | 0:cb0046a629c1 | 191 | write(MMA8451_TRANSIENT_COUNT, 5); |
| dudmuck | 0:cb0046a629c1 | 192 | |
| dudmuck | 0:cb0046a629c1 | 193 | /* Step 5: Enable Transient Detection Interrupt in the System (CTRL_REG4) */ |
| dudmuck | 0:cb0046a629c1 | 194 | ctrl_reg4.octet = 0; |
| dudmuck | 0:cb0046a629c1 | 195 | ctrl_reg4.bits.INT_EN_TRANS = 1; |
| dudmuck | 0:cb0046a629c1 | 196 | write(MMA8451_CTRL_REG4, ctrl_reg4.octet); |
| dudmuck | 0:cb0046a629c1 | 197 | |
| dudmuck | 0:cb0046a629c1 | 198 | /* Step 6: Route the Transient Interrupt to INT 1 hardware pin (CTRL_REG5) */ |
| dudmuck | 0:cb0046a629c1 | 199 | ctrl_reg5.octet = 0; |
| dudmuck | 0:cb0046a629c1 | 200 | ctrl_reg5.bits.INT_CFG_TRANS = 1; |
| dudmuck | 0:cb0046a629c1 | 201 | write(MMA8451_CTRL_REG5, ctrl_reg5.octet); |
| dudmuck | 0:cb0046a629c1 | 202 | |
| dudmuck | 0:cb0046a629c1 | 203 | /* Step 7: Put the device in Active Mode: Register 0x2A CTRL_REG1 */ |
| dudmuck | 0:cb0046a629c1 | 204 | ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1); |
| dudmuck | 0:cb0046a629c1 | 205 | ctrl_reg1.bits.ACTIVE = 1; |
| dudmuck | 0:cb0046a629c1 | 206 | write(MMA8451_CTRL_REG1, ctrl_reg1.octet); |
| dudmuck | 0:cb0046a629c1 | 207 | |
| dudmuck | 0:cb0046a629c1 | 208 | /* Step 8: Write Interrupt Service Routine Reading the |
| dudmuck | 0:cb0046a629c1 | 209 | * System Interrupt Status and the Transient Status */ |
| dudmuck | 0:cb0046a629c1 | 210 | } |
| dudmuck | 0:cb0046a629c1 | 211 | |
| dudmuck | 2:4bc96749141e | 212 | uint8_t MMA8451Q::service() |
| dudmuck | 1:778b685c3ad0 | 213 | { |
| dudmuck | 1:778b685c3ad0 | 214 | mma_int_source_t int_src; |
| dudmuck | 1:778b685c3ad0 | 215 | if (m_int_pin) |
| dudmuck | 2:4bc96749141e | 216 | return 0; // no interrupt |
| dudmuck | 1:778b685c3ad0 | 217 | |
| dudmuck | 1:778b685c3ad0 | 218 | int_src.octet = read_single(MMA8451_INT_SOURCE); |
| dudmuck | 1:778b685c3ad0 | 219 | |
| dudmuck | 1:778b685c3ad0 | 220 | if (int_src.bits.SRC_DRDY) { |
| dudmuck | 1:778b685c3ad0 | 221 | read(MMA8451_OUT_X_MSB, out.octets, 6); |
| dudmuck | 1:778b685c3ad0 | 222 | } |
| dudmuck | 1:778b685c3ad0 | 223 | if (int_src.bits.SRC_FF_MT) { |
| dudmuck | 1:778b685c3ad0 | 224 | read_single(MMA8451_FF_MT_SRC); |
| dudmuck | 1:778b685c3ad0 | 225 | } |
| dudmuck | 1:778b685c3ad0 | 226 | if (int_src.bits.SRC_PULSE) { |
| dudmuck | 1:778b685c3ad0 | 227 | read_single(MMA8451_PULSE_SRC); |
| dudmuck | 1:778b685c3ad0 | 228 | } |
| dudmuck | 1:778b685c3ad0 | 229 | if (int_src.bits.SRC_LNDPRT) { |
| jknapp_smtc | 3:6d0d5c53d825 | 230 | //mma_pl_status_t pl_status; |
| dudmuck | 2:4bc96749141e | 231 | /*AN4068 Step 12: Write a Service Routine to Service the Interrupt */ |
| dudmuck | 2:4bc96749141e | 232 | pl_status.octet = read_single(MMA8451_PL_STATUS); |
| dudmuck | 2:4bc96749141e | 233 | if (verbose) { |
| dudmuck | 2:4bc96749141e | 234 | printf("PL_STATUS: "); |
| dudmuck | 2:4bc96749141e | 235 | if (pl_status.bits.NEWLP) { |
| dudmuck | 2:4bc96749141e | 236 | if (pl_status.bits.LO) |
| dudmuck | 2:4bc96749141e | 237 | printf("Z-tilt-LO "); |
| dudmuck | 2:4bc96749141e | 238 | |
| dudmuck | 2:4bc96749141e | 239 | if (pl_status.bits.LAPO == 0) |
| dudmuck | 2:4bc96749141e | 240 | printf("up "); |
| dudmuck | 2:4bc96749141e | 241 | else if (pl_status.bits.LAPO == 1) |
| dudmuck | 2:4bc96749141e | 242 | printf("down "); |
| dudmuck | 2:4bc96749141e | 243 | else if (pl_status.bits.LAPO == 2) |
| dudmuck | 2:4bc96749141e | 244 | printf("left "); |
| dudmuck | 2:4bc96749141e | 245 | else if (pl_status.bits.LAPO == 3) |
| dudmuck | 2:4bc96749141e | 246 | printf("right "); |
| dudmuck | 2:4bc96749141e | 247 | |
| dudmuck | 2:4bc96749141e | 248 | if (pl_status.bits.BAFRO) |
| dudmuck | 2:4bc96749141e | 249 | printf("back "); |
| dudmuck | 2:4bc96749141e | 250 | else |
| dudmuck | 2:4bc96749141e | 251 | printf("front "); |
| dudmuck | 2:4bc96749141e | 252 | } |
| dudmuck | 2:4bc96749141e | 253 | printf("\r\n"); |
| dudmuck | 2:4bc96749141e | 254 | } |
| dudmuck | 2:4bc96749141e | 255 | } // ...int_src.bits.SRC_LNDPRT |
| dudmuck | 2:4bc96749141e | 256 | |
| dudmuck | 1:778b685c3ad0 | 257 | if (int_src.bits.SRC_TRANS) { |
| dudmuck | 1:778b685c3ad0 | 258 | transient_src_t t_src; |
| dudmuck | 1:778b685c3ad0 | 259 | t_src.octet = read_single(MMA8451_TRANSIENT_SRC); |
| dudmuck | 2:4bc96749141e | 260 | if (verbose) { |
| dudmuck | 2:4bc96749141e | 261 | printf("transient src:%x ", t_src.octet); |
| dudmuck | 2:4bc96749141e | 262 | if (t_src.bits.XTRANSE) |
| dudmuck | 2:4bc96749141e | 263 | printf("X_Pol:%d ", t_src.bits.X_Trans_Pol); |
| dudmuck | 2:4bc96749141e | 264 | if (t_src.bits.YTRANSE) |
| dudmuck | 2:4bc96749141e | 265 | printf("Y_Pol:%d ", t_src.bits.Y_Trans_Pol); |
| dudmuck | 2:4bc96749141e | 266 | if (t_src.bits.ZTRANSE) |
| dudmuck | 2:4bc96749141e | 267 | printf("Z_Pol:%d ", t_src.bits.Z_Trans_Pol); |
| dudmuck | 2:4bc96749141e | 268 | printf("\r\n"); |
| dudmuck | 2:4bc96749141e | 269 | } |
| dudmuck | 2:4bc96749141e | 270 | } // ...int_src.bits.SRC_TRANS |
| dudmuck | 1:778b685c3ad0 | 271 | |
| dudmuck | 1:778b685c3ad0 | 272 | if (int_src.bits.SRC_ASLP) { |
| dudmuck | 1:778b685c3ad0 | 273 | read_single(MMA8451_SYSMOD); |
| dudmuck | 1:778b685c3ad0 | 274 | } |
| dudmuck | 1:778b685c3ad0 | 275 | |
| dudmuck | 2:4bc96749141e | 276 | return int_src.octet; |
| dudmuck | 1:778b685c3ad0 | 277 | } |