/* * Copyright © 2012 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ package org.altusmetrum.altoslib_14; import java.util.concurrent.*; import java.io.*; public class AltosIMU implements Cloneable { private int accel_x = AltosLib.MISSING; private int accel_y = AltosLib.MISSING; private int accel_z = AltosLib.MISSING; private int accel_along = AltosLib.MISSING; private int accel_across = AltosLib.MISSING; private int accel_through = AltosLib.MISSING; private int gyro_x = AltosLib.MISSING; private int gyro_y = AltosLib.MISSING; private int gyro_z = AltosLib.MISSING; private int gyro_roll = AltosLib.MISSING; private int gyro_pitch = AltosLib.MISSING; private int gyro_yaw = AltosLib.MISSING; private int mag_x = AltosLib.MISSING; private int mag_y = AltosLib.MISSING; private int mag_z = AltosLib.MISSING; private int mag_along = AltosLib.MISSING; private int mag_across = AltosLib.MISSING; private int mag_through = AltosLib.MISSING; private int imu_model = AltosLib.MISSING; private int mag_model = AltosLib.MISSING; private static final double counts_per_g_mpu = 2048.0; private static final double counts_per_g_bmx = 2048.0; private static final double counts_per_g_adxl = 20.5; private static final double counts_per_g_bmi088 = 1365.0; private static double counts_per_g(int imu_type, int imu_model) { switch (imu_model) { case AltosLib.model_mpu6000: case AltosLib.model_mpu9250: return counts_per_g_mpu; case AltosLib.model_adxl375: return counts_per_g_adxl; case AltosLib.model_bmx160: return counts_per_g_bmx; case AltosLib.model_bmi088: return counts_per_g_bmi088; } switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: case imu_type_easymega_v2: return counts_per_g_mpu; case imu_type_telemega_v4: case imu_type_easytimer_v1: return counts_per_g_bmx; case imu_type_easymotor_v2: return counts_per_g_adxl; case imu_type_easytimer_v2: return counts_per_g_bmi088; } return AltosLib.MISSING; } public static double convert_accel(double counts, int imu_type, int imu_model) { double cpg = counts_per_g(imu_type, imu_model); if (cpg == AltosLib.MISSING) return AltosLib.MISSING; return counts / cpg * AltosConvert.gravity; } private static final double GYRO_FULLSCALE_DEGREES_MPU = 2000.0; private static final double GYRO_COUNTS_MPU = 32767.0; private static final double counts_per_degree_mpu = GYRO_COUNTS_MPU / GYRO_FULLSCALE_DEGREES_MPU; private static final double GYRO_FULLSCALE_DEGREES_BMX = 2000.0; private static final double GYRO_COUNTS_BMX = 32767.0; private static final double counts_per_degree_bmx = GYRO_COUNTS_BMX / GYRO_FULLSCALE_DEGREES_BMX; private static final double counts_per_degree_bmi088 = 16.384; private static double counts_per_degree(int imu_type, int imu_model) { switch (imu_model) { case AltosLib.model_mpu6000: case AltosLib.model_mpu9250: return counts_per_degree_mpu; case AltosLib.model_bmx160: return counts_per_degree_bmx; case AltosLib.model_bmi088: return counts_per_degree_bmi088; } switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: case imu_type_easymega_v2: return counts_per_degree_mpu; case imu_type_telemega_v4: case imu_type_easytimer_v1: return counts_per_degree_bmx; default: return AltosLib.MISSING; } } public static double gyro_degrees_per_second(double counts, int imu_type, int imu_model) { double cpd = counts_per_degree(imu_type, imu_model); if (cpd == AltosLib.MISSING) return AltosLib.MISSING; return counts / cpd; } private static final double MAG_FULLSCALE_GAUSS_MPU = 48.00; /* 4800µT */ private static final double MAG_COUNTS_MPU = 32767.0; private static final double counts_per_gauss_mpu = MAG_COUNTS_MPU / MAG_FULLSCALE_GAUSS_MPU; private static final double counts_per_gauss_bmx = 100.0; /* BMX driver converts to µT */ public static double counts_per_gauss(int imu_type, int imu_model) { switch (imu_model) { case AltosLib.model_mpu9250: return counts_per_gauss_mpu; case AltosLib.model_bmx160: return counts_per_gauss_bmx; } switch(imu_type) { case imu_type_telemega_v3: case imu_type_easymega_v2: return counts_per_gauss_mpu; case imu_type_telemega_v4: case imu_type_easytimer_v1: return counts_per_gauss_bmx; } return AltosLib.MISSING; } private boolean parse_string(String line) { if (line.startsWith("Accel:")) { String[] items = line.split("\\s+"); if (items.length >= 8) { accel_x = Integer.parseInt(items[1]); accel_y = Integer.parseInt(items[2]); accel_z = Integer.parseInt(items[3]); gyro_x = Integer.parseInt(items[5]); gyro_y = Integer.parseInt(items[6]); gyro_z = Integer.parseInt(items[7]); } if (items.length >= 12) { mag_x = Integer.parseInt(items[9]); mag_y = Integer.parseInt(items[10]); mag_z = Integer.parseInt(items[11]); } return true; } if (line.startsWith("MPU6000:")) { String[] items = line.split("\\s+"); imu_model = AltosLib.model_mpu6000; if (items.length >= 7) { accel_along = Integer.parseInt(items[1]); accel_across = Integer.parseInt(items[2]); accel_through = Integer.parseInt(items[3]); gyro_roll = Integer.parseInt(items[4]); gyro_pitch = Integer.parseInt(items[5]); gyro_yaw = Integer.parseInt(items[6]); } return true; } if (line.startsWith("BMI088:")) { String[] items = line.split("\\s+"); imu_model = AltosLib.model_bmi088; if (items.length >= 7) { accel_along = Integer.parseInt(items[1]); accel_across = Integer.parseInt(items[2]); accel_through = Integer.parseInt(items[3]); gyro_roll = Integer.parseInt(items[4]); gyro_pitch = Integer.parseInt(items[5]); gyro_yaw = Integer.parseInt(items[6]); } return true; } return false; } public AltosIMU clone() { AltosIMU n = new AltosIMU(); n.accel_x = accel_x; n.accel_y = accel_y; n.accel_z = accel_z; n.accel_along = accel_along; n.accel_across = accel_across; n.accel_through = accel_through; n.gyro_x = gyro_x; n.gyro_y = gyro_y; n.gyro_z = gyro_z; n.gyro_roll = gyro_roll; n.gyro_pitch = gyro_pitch; n.gyro_yaw = gyro_yaw; n.mag_x = mag_x; n.mag_y = mag_y; n.mag_z = mag_z; n.mag_along = mag_along; n.mag_across = mag_across; n.mag_through = mag_through; return n; } public static final int imu_type_telemega_v1_v2 = 0; /* MPU6000 */ public static final int imu_type_telemega_v3 = 1; /* MPU9250 */ public static final int imu_type_telemega_v4 = 2; /* BMX160 */ public static final int imu_type_easymega_v1 = 3; /* MPU6000 */ public static final int imu_type_easymega_v2 = 4; /* MPU9250 */ public static final int imu_type_easytimer_v1 = 5; /* BMX160 */ public static final int imu_type_easymotor_v2 = 6; /* ADXL375 (accel only) */ public static final int imu_type_easytimer_v2 = 7; /* BMI088 */ private int accel_across(int imu_type) { if (accel_across != AltosLib.MISSING) return accel_across; switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return accel_x; case imu_type_easymega_v2: return -accel_y; case imu_type_telemega_v4: case imu_type_easytimer_v1: return -accel_y; case imu_type_easymotor_v2: return accel_y; default: return AltosLib.MISSING; } } private int accel_along(int imu_type) { if (accel_along != AltosLib.MISSING) { System.out.printf("accel along %d\n", accel_along); return accel_along; } switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return accel_y; case imu_type_easymega_v2: case imu_type_telemega_v4: case imu_type_easytimer_v1: return accel_x; case imu_type_easymotor_v2: return -accel_x; default: return AltosLib.MISSING; } } private int accel_through(int imu_type) { if (accel_through != AltosLib.MISSING) return accel_through; return accel_z; } private int gyro_roll(int imu_type) { if (gyro_roll != AltosLib.MISSING) return gyro_roll; switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return gyro_y; case imu_type_easymega_v2: case imu_type_telemega_v4: case imu_type_easytimer_v1: return gyro_x; default: return AltosLib.MISSING; } } private int gyro_pitch(int imu_type) { if (gyro_pitch != AltosLib.MISSING) return gyro_pitch; switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return gyro_x; case imu_type_easymega_v2: return -gyro_y; case imu_type_telemega_v4: case imu_type_easytimer_v1: return -gyro_y; default: return AltosLib.MISSING; } } private int gyro_yaw(int imu_type) { if (gyro_yaw != AltosLib.MISSING) return gyro_yaw; return gyro_z; } private int mag_across(int imu_type) { if (mag_across != AltosLib.MISSING) return mag_across; switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return mag_x; case imu_type_easymega_v2: return -mag_y; case imu_type_telemega_v4: case imu_type_easytimer_v1: return mag_y; default: return AltosLib.MISSING; } } private int mag_along(int imu_type) { if (mag_along != AltosLib.MISSING) return mag_along; switch (imu_type) { case imu_type_telemega_v1_v2: case imu_type_telemega_v3: case imu_type_easymega_v1: return mag_y; case imu_type_easymega_v2: case imu_type_telemega_v4: case imu_type_easytimer_v1: return mag_x; default: return AltosLib.MISSING; } } private int mag_through(int imu_type) { if (mag_through != AltosLib.MISSING) return mag_through; return mag_z; } private static boolean is_primary_accel(int imu_type) { switch (imu_type) { case imu_type_easytimer_v1: case imu_type_easytimer_v2: return true; default: return false; } } static public void provide_data(AltosDataListener listener, AltosLink link, int imu_type) throws InterruptedException { try { AltosIMU imu = new AltosIMU(link); AltosCalData cal_data = listener.cal_data(); System.out.printf("imu_model %d mag_model %d\n", imu.imu_model, imu.mag_model); if (imu_type != AltosLib.MISSING) cal_data.set_imu_type(imu_type); if (imu != null) { if (imu.imu_model != AltosLib.MISSING) cal_data.set_imu_model(imu.imu_model); if (imu.mag_model != AltosLib.MISSING) cal_data.set_mag_model(imu.mag_model); if (imu.gyro_roll(imu_type) != AltosLib.MISSING) { cal_data.set_gyro_zero(0, 0, 0); listener.set_gyro(cal_data.gyro_roll(imu.gyro_roll(imu_type)), cal_data.gyro_pitch(imu.gyro_pitch(imu_type)), cal_data.gyro_yaw(imu.gyro_yaw(imu_type))); } listener.set_accel_ground(cal_data.accel_along(imu.accel_along(imu_type)), cal_data.accel_across(imu.accel_across(imu_type)), cal_data.accel_through(imu.accel_through(imu_type))); listener.set_accel(cal_data.accel_along(imu.accel_along(imu_type)), cal_data.accel_across(imu.accel_across(imu_type)), cal_data.accel_through(imu.accel_through(imu_type))); if (is_primary_accel(imu_type)) { int accel = imu.accel_along(imu_type); if (!cal_data.adxl375_inverted) accel = -accel; if (cal_data.pad_orientation == 1) accel = -accel; listener.set_acceleration(cal_data.acceleration(accel)); } if (imu.mag_along(imu_type) != AltosLib.MISSING) { listener.set_mag(cal_data.mag_along(imu.mag_along(imu_type)), cal_data.mag_across(imu.mag_across(imu_type)), cal_data.mag_through(imu.mag_through(imu_type))); } } } catch (TimeoutException te) { } } public AltosIMU() { } public AltosIMU(AltosLink link) throws InterruptedException, TimeoutException { this(); link.printf("I\n"); for (;;) { String line = link.get_reply_no_dialog(5000); if (line == null) { throw new TimeoutException(); } if (parse_string(line)) break; } } }