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#ifndef ACCEL_LSM303_H
#define ACCEL_LSM303_H
// Device
#define LSM303DLH_DEVICE 0
#define LSM303DLM_DEVICE 1
#define LSM303DLHC_DEVICE 2
// SA0_A States
#define LSM303_SA0_A_LOW 0
#define LSM303_SA0_A_HIGH 1
// Slave Addresses
#define MAG_ADDRESS (0x3C >> 1)
#define ACC_ADDRESS_SA0_A_LOW (0x30 >> 1)
#define ACC_ADDRESS_SA0_A_HIGH (0x32 >> 1)
// Register Addresses
#define LSM303_CTRL_REG1_A 0x20
#define LSM303_CTRL_REG2_A 0x21
#define LSM303_CTRL_REG3_A 0x22
#define LSM303_CTRL_REG4_A 0x23
#define LSM303_CTRL_REG5_A 0x24
#define LSM303_CTRL_REG6_A 0x25 // DLHC only
#define LSM303_HP_FILTER_RESET_A 0x25 // DLH, DLM only
#define LSM303_REFERENCE_A 0x26
#define LSM303_STATUS_REG_A 0x27
#define LSM303_OUT_X_L_A 0x28
#define LSM303_OUT_X_H_A 0x29
#define LSM303_OUT_Y_L_A 0x2A
#define LSM303_OUT_Y_H_A 0x2B
#define LSM303_OUT_Z_L_A 0x2C
#define LSM303_OUT_Z_H_A 0x2D
#define LSM303_FIFO_CTRL_REG_A 0x2E // DLHC only
#define LSM303_FIFO_SRC_REG_A 0x2F // DLHC only
#define LSM303_INT1_CFG_A 0x30
#define LSM303_INT1_SRC_A 0x31
#define LSM303_INT1_THS_A 0x32
#define LSM303_INT1_DURATION_A 0x33
#define LSM303_INT2_CFG_A 0x34
#define LSM303_INT2_SRC_A 0x35
#define LSM303_INT2_THS_A 0x36
#define LSM303_INT2_DURATION_A 0x37
#define LSM303_CLICK_CFG_A 0x38 // DLHC only
#define LSM303_CLICK_SRC_A 0x39 // DLHC only
#define LSM303_CLICK_THS_A 0x3A // DLHC only
#define LSM303_TIME_LIMIT_A 0x3B // DLHC only
#define LSM303_TIME_LATENCY_A 0x3C // DLHC only
#define LSM303_TIME_WINDOW_A 0x3D // DLHC only
#define LSM303_CRA_REG_M 0x00
#define LSM303_CRB_REG_M 0x01
#define LSM303_MR_REG_M 0x02
#define LSM303_OUT_X_H_M 0x03
#define LSM303_OUT_X_L_M 0x04
#define LSM303_OUT_Y_H_M -1 // The addresses of the Y and Z magnetometer output registers
#define LSM303_OUT_Y_L_M -2 // are reversed on the DLM and DLHC relative to the DLH.
#define LSM303_OUT_Z_H_M -3 // These four defines have dummy values so the library can
#define LSM303_OUT_Z_L_M -4 // determine the correct address based on the device type.
#define LSM303_SR_REG_M 0x09
#define LSM303_IRA_REG_M 0x0A
#define LSM303_IRB_REG_M 0x0B
#define LSM303_IRC_REG_M 0x0C
#define LSM303_WHO_AM_I_M 0x0F // DLM only
#define LSM303_TEMP_OUT_H_M 0x31 // DLHC only
#define LSM303_TEMP_OUT_L_M 0x32 // DLHC only
#define LSM303DLH_OUT_Y_H_M 0x05
#define LSM303DLH_OUT_Y_L_M 0x06
#define LSM303DLH_OUT_Z_H_M 0x07
#define LSM303DLH_OUT_Z_L_M 0x08
#define LSM303DLM_OUT_Z_H_M 0x05
#define LSM303DLM_OUT_Z_L_M 0x06
#define LSM303DLM_OUT_Y_H_M 0x07
#define LSM303DLM_OUT_Y_L_M 0x08
#define LSM303DLHC_OUT_Z_H_M 0x05
#define LSM303DLHC_OUT_Z_L_M 0x06
#define LSM303DLHC_OUT_Y_H_M 0x07
#define LSM303DLHC_OUT_Y_L_M 0x08
typedef struct {
char acc_address;
char mag_address;
char device;
} LSM303_DATA;
enum magGain {
magGain_13 = 0x20, magGain_19 = 0x40,
magGain_25 = 0x60, magGain_40 = 0x80,
magGain_47 = 0xA0, magGain_56 = 0xC0,
magGain_81 = 0xE0
};
void LSM303_Init(LSM303_DATA *data, char device, char sa0);
void LSM303_Begin(void);
void LSM303_Write_A_Reg(char reg, char value);
void LSM303_Write_M_Reg(char reg, char value);
void LSM303_Set_Mag_Gain(enum magGain value);
void LSM303_Read_Acc(int *x, int *y, int *z);
void LSM303_Read_Mag(int *x, int *y, int *z);
#endif