My attempt to made a more useful lib. You can get the accelerator and magnetometer.
Fork of LSM303DLH by
LSM303DLH.cpp
- Committer:
- shimniok
- Date:
- 2011-04-08
- Revision:
- 1:48d83c63d1d9
- Parent:
- 0:de767f4959ef
- Child:
- 2:aea5caec809c
File content as of revision 1:48d83c63d1d9:
/** LSM303DLH Interface Library * * Michael Shimniok http://bot-thoughts.com * * Based on test program by @tosihisa and * * Pololu sample library for LSM303DLH breakout by ryantm: * * Copyright (c) 2011 Pololu Corporation. For more information, see * * http://www.pololu.com/ * http://forum.pololu.com/ * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ #include "mbed.h" #include "LSM303DLH.h" #ifndef M_PI #define M_PI 3.14159265358979323846 #endif #define FILTER_SHIFT 6 // used in filtering acceleromter readings const int addr_acc = 0x30; const int addr_mag = 0x3c; enum REG_ADDRS { /* --- Mag --- */ CRA_REG_M = 0x00, CRB_REG_M = 0x01, MR_REG_M = 0x02, OUT_X_M = 0x03, OUT_Y_M = 0x05, OUT_Z_M = 0x07, /* --- Acc --- */ CTRL_REG1_A = 0x20, CTRL_REG4_A = 0x23, OUT_X_A = 0x28, OUT_Y_A = 0x2A, OUT_Z_A = 0x2C, }; bool LSM303DLH::write_reg(int addr_i2c,int addr_reg, char v) { char data[2] = {addr_reg, v}; return LSM303DLH::_compass.write(addr_i2c, data, 2) == 0; } bool LSM303DLH::read_reg(int addr_i2c,int addr_reg, char *v) { char data = addr_reg; if ((LSM303DLH::_compass.write(addr_i2c, &data, 1) == 0) && (LSM303DLH::_compass.read(addr_i2c, &data, 1) == 0)){ *v = data; return true; } return false; } bool LSM303DLH::read_reg_short(int addr_i2c,int addr_reg, short *v) { char *pv = (char *)v; read_reg(addr_i2c,addr_reg+0,pv+1); return read_reg(addr_i2c,addr_reg+1,pv+0); } LSM303DLH::LSM303DLH(PinName sda, PinName scl): _compass(sda, scl), _offset_x(0), _offset_y(0), _offset_z(0), _scale_x(0), _scale_y(0), _scale_z(0), _filt_ax(0), _filt_ay(0), _filt_az(6000) { char reg_v; _compass.frequency(100000); reg_v = 0; reg_v |= 0x01 << 5; /* Normal mode */ reg_v |= 0x07; /* X/Y/Z axis enable. */ write_reg(addr_acc,CTRL_REG1_A,reg_v); reg_v = 0; read_reg(addr_acc,CTRL_REG1_A,®_v); reg_v = 0; reg_v |= 0x01 << 6; /* 1: data MSB @ lower address */ reg_v |= 0x01 << 4; /* +/- 4g */ write_reg(addr_acc,CTRL_REG4_A,reg_v); /* -- mag --- */ reg_v = 0; reg_v |= 0x04 << 2; /* Minimum data output rate = 15Hz */ write_reg(addr_mag,CRA_REG_M,reg_v); reg_v = 0; //reg_v |= 0x01 << 5; /* +-1.3Gauss */ reg_v |= 0x07 << 5; /* +-8.1Gauss */ write_reg(addr_mag,CRB_REG_M,reg_v); reg_v = 0; /* Continuous-conversion mode */ write_reg(addr_mag,MR_REG_M,reg_v); } void LSM303DLH::setOffset(float x, float y, float z) { _offset_x = x; _offset_y = y; _offset_z = z; } void LSM303DLH::setScale(float x, float y, float z) { _scale_x = x; _scale_y = y; _scale_z = z; } void LSM303DLH::read(vector &a, vector &m) { short a_x, a_y, a_z; short m_x, m_y, m_z; read_reg_short(addr_acc, OUT_X_A, &a_x); read_reg_short(addr_acc, OUT_Y_A, &a_y); read_reg_short(addr_acc, OUT_Z_A, &a_z); read_reg_short(addr_mag, OUT_X_M, &m_x); read_reg_short(addr_mag, OUT_Y_M, &m_y); read_reg_short(addr_mag, OUT_Z_M, &m_z); // Perform simple lowpass filtering // Intended to stabilize heading despite // device vibration such as on a UGV _filt_ax += a_x - (_filt_ax >> FILTER_SHIFT); _filt_ay += a_y - (_filt_ay >> FILTER_SHIFT); _filt_az += a_z - (_filt_az >> FILTER_SHIFT); a.x = (float) (_filt_ax >> FILTER_SHIFT); a.y = (float) (_filt_ay >> FILTER_SHIFT); a.z = (float) (_filt_az >> FILTER_SHIFT); // offset and scale m.x = (m_x + _offset_x) * _scale_x; m.y = (m_y + _offset_y) * _scale_y; m.z = (m_z + _offset_z) * _scale_z; } // Returns the number of degrees from the -Y axis that it // is pointing. float LSM303DLH::heading() { return heading((vector){0,-1,0}); } float LSM303DLH::heading(vector from) { vector a, m; this->read(a, m); //////////////////////////////////////////////// // compute heading //////////////////////////////////////////////// vector temp_a = a; // normalize vector_normalize(&temp_a); //vector_normalize(&m); // compute E and N vector E; vector N; vector_cross(&m,&temp_a,&E); vector_normalize(&E); vector_cross(&temp_a,&E,&N); // compute heading float heading = atan2(vector_dot(&E,&from), vector_dot(&N,&from)) * 180/M_PI; if (heading < 0) heading += 360; return heading; }