/* * Copyright © 2010 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.altosuilib_14; import java.awt.*; import java.awt.event.*; import javax.swing.*; import javax.swing.table.*; import org.altusmetrum.altoslib_14.*; public class AltosInfoTable extends JTable implements AltosFlightDisplay, HierarchyListener { private AltosFlightInfoTableModel model; static final int info_columns = 4; static final int info_rows = 18; private AltosState last_state; private AltosListenerState last_listener_state; int desired_row_height() { FontMetrics infoValueMetrics = getFontMetrics(AltosUILib.table_value_font); return (infoValueMetrics.getHeight() + infoValueMetrics.getLeading()) * 18 / 10; } int text_width(String t) { FontMetrics infoValueMetrics = getFontMetrics(AltosUILib.table_value_font); return infoValueMetrics.stringWidth(t); } void set_layout() { setRowHeight(desired_row_height()); for (int i = 0; i < info_columns * 2; i++) { TableColumn column = getColumnModel().getColumn(i); if ((i & 1) == 0) column.setPreferredWidth(text_width(" Satellites Visible")); else column.setPreferredWidth(text_width("W 179°59.99999' ")); } } public AltosInfoTable() { super(new AltosFlightInfoTableModel(info_rows, info_columns)); model = (AltosFlightInfoTableModel) getModel(); setFont(AltosUILib.table_value_font); addHierarchyListener(this); setAutoResizeMode(AUTO_RESIZE_ALL_COLUMNS); setShowGrid(true); set_layout(); doLayout(); } public void font_size_changed(int font_size) { setFont(AltosUILib.table_value_font); set_layout(); doLayout(); } public void units_changed(boolean imperial_units) { } public void hierarchyChanged(HierarchyEvent e) { if (last_state != null && isShowing()) { AltosState state = last_state; AltosListenerState listener_state = last_listener_state; last_state = null; last_listener_state = null; show(state, listener_state); } } public Dimension getPreferredScrollableViewportSize() { return getPreferredSize(); } public void reset() { model.reset(); } void info_add_row(int col, String name, String value) { model.addRow(col, name, value); } void info_add_row(int col, String name, String format, Object... parameters) { info_add_row (col, name, String.format(format, parameters)); } void info_add_deg(int col, String name, double v, int pos, int neg) { int c = pos; if (v < 0) { c = neg; v = -v; } double deg = Math.floor(v); double min = (v - deg) * 60; info_add_row(col, name, String.format("%c %3.0f°%08.5f'", c, deg, min)); } void info_finish() { model.finish(); } public void clear() { model.clear(); } public String getName() { return "Table"; } public void show(AltosState state, AltosListenerState listener_state) { AltosCalData cal_data = state.cal_data(); if (!isShowing()) { last_state = state; last_listener_state = listener_state; return; } reset(); if (state != null) { if (cal_data.device_type != AltosLib.MISSING) info_add_row(0, "Device", "%s", AltosLib.product_name(cal_data.device_type)); else if (cal_data.product != null) info_add_row(0, "Device", "%s", cal_data.product); if (state.tick() != AltosLib.MISSING) info_add_row(0, "Tick", "%6d", state.tick()); if (state.altitude() != AltosLib.MISSING) info_add_row(0, "Altitude", "%6.0f m", state.altitude()); if (cal_data.ground_altitude != AltosLib.MISSING) info_add_row(0, "Pad altitude", "%6.0f m", cal_data.ground_altitude); if (state.height() != AltosLib.MISSING) info_add_row(0, "Height", "%6.0f m", state.height()); if (state.max_height() != AltosLib.MISSING) info_add_row(0, "Max height", "%6.0f m", state.max_height()); if (state.acceleration() != AltosLib.MISSING) info_add_row(0, "Acceleration", "%8.1f m/s²", state.acceleration()); if (state.max_acceleration() != AltosLib.MISSING) info_add_row(0, "Max acceleration", "%8.1f m/s²", state.max_acceleration()); if (state.speed() != AltosLib.MISSING) info_add_row(0, "Speed", "%8.1f m/s", state.speed()); if (state.max_speed() != AltosLib.MISSING) info_add_row(0, "Max Speed", "%8.1f m/s", state.max_speed()); if (state.orient() != AltosLib.MISSING) info_add_row(0, "Tilt", "%4.0f °", state.orient()); if (state.max_orient() != AltosLib.MISSING) info_add_row(0, "Max Tilt", "%4.0f °", state.max_orient()); if (state.temperature != AltosLib.MISSING) info_add_row(0, "Temperature", "%9.2f °C", state.temperature); if (state.battery_voltage != AltosLib.MISSING) info_add_row(0, "Battery", "%9.2f V", state.battery_voltage); if (state.apogee_voltage != AltosLib.MISSING) info_add_row(0, "Drogue", "%9.2f V", state.apogee_voltage); if (state.main_voltage != AltosLib.MISSING) info_add_row(0, "Main", "%9.2f V", state.main_voltage); } if (listener_state != null) { info_add_row(0, "CRC Errors", "%6d", listener_state.crc_errors); if (listener_state.battery != AltosLib.MISSING) info_add_row(0, "Receiver Battery", "%9.2f", listener_state.battery); } if (state != null) { if (state.gps == null || !state.gps.connected) { info_add_row(1, "GPS", "not available"); } else { if (state.gps_ready) info_add_row(1, "GPS state", "%s", "ready"); else info_add_row(1, "GPS state", "wait (%d)", state.gps_waiting); if (state.gps.locked) info_add_row(1, "GPS", " locked"); else if (state.gps.connected) info_add_row(1, "GPS", " unlocked"); else info_add_row(1, "GPS", " missing"); info_add_row(1, "Satellites", "%6d", state.gps.nsat); if (state.gps.lat != AltosLib.MISSING) info_add_deg(1, "Latitude", state.gps.lat, 'N', 'S'); if (state.gps.lon != AltosLib.MISSING) info_add_deg(1, "Longitude", state.gps.lon, 'E', 'W'); if (state.gps.alt != AltosLib.MISSING) info_add_row(1, "GPS altitude", "%8.1f m", state.gps.alt); if (state.gps_height != AltosLib.MISSING) info_add_row(1, "GPS height", "%8.1f m", state.gps_height); if (state.gps.ground_speed != AltosLib.MISSING && state.gps.course != AltosLib.MISSING) info_add_row(1, "GPS ground speed", "%6.1f m/s %3d°", state.gps.ground_speed, state.gps.course); if (state.gps.climb_rate != AltosLib.MISSING) info_add_row(1, "GPS climb rate", "%6.1f m/s", state.gps.climb_rate); if (state.gps.h_error != AltosLib.MISSING && state.gps.v_error != AltosLib.MISSING) info_add_row(1, "GPS error", "%6.0f m(h)%6.0f m(v)", state.gps.h_error, state.gps.v_error); if (state.gps.pdop != AltosLib.MISSING && state.gps.hdop != AltosLib.MISSING && state.gps.vdop != AltosLib.MISSING) info_add_row(1, "GPS dop", "%3.1fp/%3.1fh/%3.1fv", state.gps.pdop, state.gps.hdop, state.gps.vdop); if (state.npad > 0) { if (state.from_pad != null) { info_add_row(1, "Ground pad dist", "%6d m", (int) (state.from_pad.distance + 0.5)); info_add_row(1, "Direction from pad", "%6d°", (int) (state.from_pad.bearing + 0.5)); info_add_row(1, "Elevation from pad", "%6d°", (int) (state.elevation + 0.5)); info_add_row(1, "Range from pad", "%6d m", (int) (state.range + 0.5)); } else { info_add_row(1, "Distance from pad", "unknown"); info_add_row(1, "Direction from pad", "unknown"); info_add_row(1, "Elevation from pad", "unknown"); info_add_row(1, "Range from pad", "unknown"); } info_add_deg(1, "Pad latitude", state.pad_lat, 'N', 'S'); info_add_deg(1, "Pad longitude", state.pad_lon, 'E', 'W'); info_add_row(1, "Pad GPS alt", "%6.0f m", state.gps_ground_altitude()); } if (state.gps.year != AltosLib.MISSING) info_add_row(2, "GPS date", "%04d-%02d-%02d", state.gps.year, state.gps.month, state.gps.day); if (state.gps.hour != AltosLib.MISSING) info_add_row(2, "GPS time", " %02d:%02d:%02d", state.gps.hour, state.gps.minute, state.gps.second); //int nsat_vis = 0; int c; if (state.gps.cc_gps_sat == null) info_add_row(2, "Satellites Visible", "%4d", 0); else { info_add_row(2, "Satellites Visible", "%4d", state.gps.cc_gps_sat.length); for (c = 0; c < state.gps.cc_gps_sat.length; c++) { info_add_row(2, "Satellite id,C/N0", "%4d, %4d", state.gps.cc_gps_sat[c].svid, state.gps.cc_gps_sat[c].c_n0); } } } } if (state != null && state.accel_along() != AltosLib.MISSING) { info_add_row(3, "Accel along", "%8.1f m/s²", state.accel_along()); info_add_row(3, "Accel across", "%8.1f m/s²", state.accel_across()); info_add_row(3, "Accel through", "%8.1f m/s²", state.accel_through()); } if (state != null && state.gyro_roll() != AltosLib.MISSING) { info_add_row(3, "Gyro roll", "%8.1f °/s", state.gyro_roll()); info_add_row(3, "Gyro pitch", "%8.1f °/s", state.gyro_pitch()); info_add_row(3, "Gyro yaw", "%8.1f °/s", state.gyro_yaw()); } if (state != null && state.mag_along() != AltosLib.MISSING) { /* Report mag in nanoteslas (1 G = 100000 nT (or γ)) */ info_add_row(3, "Mag along", "%8.1f µT", state.mag_along() * 100.0); info_add_row(3, "Mag across", "%8.1f µT", state.mag_across() * 100.0); info_add_row(3, "Mag Through", "%8.1f µT", state.mag_through() * 100.0); info_add_row(3, "Mag Bearing", "%8.1f°", Math.atan2(state.mag_across(), state.mag_through()) * 180/Math.PI); } if (state != null && state.igniter_voltage != null) { for (int i = 0; i < state.igniter_voltage.length; i++) info_add_row(3, AltosLib.igniter_name(i), "%9.2f V", state.igniter_voltage[i]); } info_finish(); } }