'use strict'; TABS.setup = { yaw_fix: 0.0 }; TABS.setup.initialize = function (callback) { var self = this; GUI.active_tab_ref = this; GUI.active_tab = 'setup'; googleAnalytics.sendAppView('Setup'); function load_ident() { MSP.send_message(MSP_codes.MSP_IDENT, false, false, load_config); } function load_config() { if (bit_check(CONFIG.capability, 30)) { MSP.send_message(MSP_codes.MSP_CONFIG, false, false, load_misc_data); } else { load_misc_data(); } } function load_misc_data() { MSP.send_message(MSP_codes.MSP_MISC, false, false, load_html); } function load_html() { $('#content').load("./tabs/setup.html", process_html); } MSP.send_message(MSP_codes.MSP_ACC_TRIM, false, false, load_ident); function process_html() { // translate to user-selected language localize(); // if CAP_BASEFLIGHT_CONFIG (30) if (bit_check(CONFIG.capability, 30)) { // current stuff, this will become default when the compatibility period ends $('.CAP_BASEFLIGHT_CONFIG').show(); // initialize 3D self.initialize3D(false); // set heading in interactive block $('span.heading').text(chrome.i18n.getMessage('initialSetupheading', [0])); } else { // old stuff $('.COMPATIBILITY').show(); // initialize 3D self.initialize3D(true); // Fill in misc stuff $('input[name="mincellvoltage"]').val(MISC.vbatmincellvoltage); $('input[name="maxcellvoltage"]').val(MISC.vbatmaxcellvoltage); $('input[name="voltagescale"]').val(MISC.vbatscale); $('input[name="minthrottle"]').val(MISC.minthrottle); $('input[name="maxthrottle"]').val(MISC.maxthrottle); $('input[name="failsafe_throttle"]').val(MISC.failsafe_throttle); $('input[name="mincommand"]').val(MISC.mincommand); $('input[name="mag_declination"]').val(MISC.mag_declination / 10); // Fill in the accel trimms from CONFIG object $('input[name="pitch"]').val(CONFIG.accelerometerTrims[0]); $('input[name="roll"]').val(CONFIG.accelerometerTrims[1]); // Display multiType and motor diagram (if such exist) var str; switch (CONFIG.multiType) { case 1: // TRI str = 'TRI'; $('.modelMixDiagram').attr('src', './images/motor_order/tri.svg').addClass('modelMixTri'); break; case 2: // QUAD + str = 'Quad +'; $('.modelMixDiagram').attr('src', './images/motor_order/quad_p.svg').addClass('modelMixQuadP'); break; case 3: // QUAD X str = 'Quad X'; $('.modelMixDiagram').attr('src', './images/motor_order/quad_x.svg').addClass('modelMixQuadX'); break; case 4: // BI str = 'BI'; break; case 5: // GIMBAL str = 'Gimbal'; break; case 6: // Y6 str = 'Y6'; $('.modelMixDiagram').attr('src', './images/motor_order/y6.svg').addClass('modelMixY6'); break; case 7: // HEX 6 str = 'HEX 6'; $('.modelMixDiagram').attr('src', './images/motor_order/hex_p.svg').addClass('modelMixHex6P'); break; case 8: // FLYING_WING str = 'Flying Wing'; break; case 9: // Y4 str = 'Y4'; $('.modelMixDiagram').attr('src', './images/motor_order/y4.svg').addClass('modelMixY4'); break; case 10: // HEX6 X str = 'HEX6 X'; $('.modelMixDiagram').attr('src', './images/motor_order/hex_x.svg').addClass('modelMixHex6X'); break; case 11: // OCTO X8 case 12: case 13: str = 'OCTO X8'; $('.modelMixDiagram').attr('src', './images/motor_order/octo_flat_x.svg').addClass('modelMixOctoX'); break; case 14: // AIRPLANE str = 'Airplane'; $('.modelMixDiagram').attr('src', './images/motor_order/airplane.svg').addClass('modelMixAirplane'); break; case 15: // Heli 120 str = 'Heli 120'; break; case 16: // Heli 90 str = 'Heli 90'; break; case 17: // Vtail str = 'Vtail'; $('.modelMixDiagram').attr('src', './images/motor_order/vtail_quad.svg').addClass('modelMixVtail'); break; case 18: // HEX6 H str = 'HEX6 H'; $('.modelMixDiagram').attr("src", './images/motor_order/custom.svg').addClass('modelMixCustom'); break; case 19: // PPM to SERVO str = 'PPM to SERVO'; $('.modelMixDiagram').attr("src", './images/motor_order/custom.svg').addClass('modelMixCustom'); break; case 20: // Dualcopter str = 'Dualcopter'; $('.modelMixDiagram').attr("src", './images/motor_order/custom.svg').addClass('modelMixCustom'); break; case 21: // Singlecopter str = 'Singlecopter'; $('.modelMixDiagram').attr("src", './images/motor_order/custom.svg').addClass('modelMixCustom'); break; case 22: // Custom str = 'Custom'; $('.modelMixDiagram').attr("src", './images/motor_order/custom.svg').addClass('modelMixCustom'); break; } $('span.model').text(chrome.i18n.getMessage('initialSetupModel', [str])); // Heading $('span.heading').text(chrome.i18n.getMessage('initialSetupheading', [0])); $('a.update').click(function () { CONFIG.accelerometerTrims[0] = parseInt($('input[name="pitch"]').val()); CONFIG.accelerometerTrims[1] = parseInt($('input[name="roll"]').val()); MISC.vbatmincellvoltage = parseFloat($('input[name="mincellvoltage"]').val()) * 10; MISC.vbatmaxcellvoltage = parseFloat($('input[name="maxcellvoltage"]').val()) * 10; MISC.vbatscale = parseInt($('input[name="voltagescale"]').val()); MISC.minthrottle = parseInt($('input[name="minthrottle"]').val()); MISC.maxthrottle = parseInt($('input[name="maxthrottle"]').val()); MISC.failsafe_throttle = parseInt($('input[name="failsafe_throttle"]').val()); MISC.mincommand = parseInt($('input[name="mincommand"]').val()); MISC.mag_declination = parseFloat($('input[name="mag_declination"]').val()) * 10; function save_to_eeprom() { MSP.send_message(MSP_codes.MSP_EEPROM_WRITE, false, false, function () { GUI.log(chrome.i18n.getMessage('initialSetupEepromSaved')); }); } // Send over the new trims MSP.send_message(MSP_codes.MSP_SET_ACC_TRIM, MSP.crunch(MSP_codes.MSP_SET_ACC_TRIM)); // Send over new misc MSP.send_message(MSP_codes.MSP_SET_MISC, MSP.crunch(MSP_codes.MSP_SET_MISC), false, save_to_eeprom); }); } // check if we have magnetometer if (!bit_check(CONFIG.activeSensors, 2)) { $('a.calibrateMag').addClass('disabled'); } // UI Hooks $('a.calibrateAccel').click(function () { var self = $(this); if (!self.hasClass('calibrating')) { self.addClass('calibrating'); // During this period MCU won't be able to process any serial commands because its locked in a for/while loop // until this operation finishes, sending more commands through data_poll() will result in serial buffer overflow GUI.interval_pause('setup_data_pull'); MSP.send_message(MSP_codes.MSP_ACC_CALIBRATION, false, false, function () { GUI.log(chrome.i18n.getMessage('initialSetupAccelCalibStarted')); }); GUI.timeout_add('button_reset', function () { GUI.interval_resume('setup_data_pull'); GUI.log(chrome.i18n.getMessage('initialSetupAccelCalibEnded')); self.removeClass('calibrating'); }, 2000); } }); $('a.calibrateMag').click(function () { var self = $(this); if (!self.hasClass('calibrating') && !self.hasClass('disabled')) { self.addClass('calibrating'); MSP.send_message(MSP_codes.MSP_MAG_CALIBRATION, false, false, function () { GUI.log(chrome.i18n.getMessage('initialSetupMagCalibStarted')); }); GUI.timeout_add('button_reset', function () { GUI.log(chrome.i18n.getMessage('initialSetupMagCalibEnded')); self.removeClass('calibrating'); }, 30000); } }); $('a.resetSettings').click(function() { MSP.send_message(MSP_codes.MSP_RESET_CONF, false, false, function () { GUI.log(chrome.i18n.getMessage('initialSetupSettingsRestored')); GUI.tab_switch_cleanup(function() { TABS.setup.initialize(); }); }); }); // display current yaw fix value (important during tab re-initialization) $('div#interactive_block > a.reset').text(chrome.i18n.getMessage('initialSetupButtonResetZaxisValue', [self.yaw_fix])); // reset yaw button hook $('div#interactive_block > a.reset').click(function () { self.yaw_fix = SENSOR_DATA.kinematics[2] * - 1.0; $(this).text(chrome.i18n.getMessage('initialSetupButtonResetZaxisValue', [self.yaw_fix])); console.log('YAW reset to 0 deg, fix: ' + self.yaw_fix + ' deg'); }); $('#content .backup').click(configuration_backup); $('#content .restore').click(configuration_restore); // data pulling functions used inside interval timer // this stuff will be reworked when compatibility period ends, to make the pulling more efficient function get_analog_data() { MSP.send_message(MSP_codes.MSP_ANALOG, false, false, get_gps_data); } function get_gps_data() { MSP.send_message(MSP_codes.MSP_RAW_GPS, false, false, get_attitude_data); } function get_attitude_data() { MSP.send_message(MSP_codes.MSP_ATTITUDE, false, false, update_ui); } // in future update selectors will be moved outside to specific variables to increase performance function update_ui() { // Update heading $('span.heading').text(chrome.i18n.getMessage('initialSetupheading', [SENSOR_DATA.kinematics[2]])); // Update voltage indicator $('.bat-voltage').text(chrome.i18n.getMessage('initialSetupBatteryValue', [ANALOG.voltage])); $('.bat-mah-drawn').text(chrome.i18n.getMessage('initialSetupBatteryMahValue', [ANALOG.mAhdrawn])); $('.bat-mah-drawing').text(chrome.i18n.getMessage('initialSetupBatteryAValue', [ANALOG.amperage.toFixed(2)])); $('.rssi').text(chrome.i18n.getMessage('initialSetupRSSIValue', [((ANALOG.rssi / 1023) * 100).toFixed(0)])); // Update gps $('.gpsFix').html((GPS_DATA.fix) ? chrome.i18n.getMessage('gpsFixTrue') : chrome.i18n.getMessage('gpsFixFalse')); $('.gpsSats').text(GPS_DATA.numSat); $('.gpsLat').text((GPS_DATA.lat / 10000000).toFixed(4) + ' deg'); $('.gpsLon').text((GPS_DATA.lon / 10000000).toFixed(4) + ' deg'); // Update 3D self.render3D(); } GUI.interval_add('setup_data_pull', get_analog_data, 50, true); // status data pulled via separate timer with static speed GUI.interval_add('status_pull', function status_pull () { MSP.send_message(MSP_codes.MSP_STATUS); }, 250, true); if (callback) callback(); } }; TABS.setup.initialize3D = function (compatibility) { var self = this; if (compatibility) { var canvas = $('.COMPATIBILITY #canvas'); var wrapper = $('.COMPATIBILITY #canvas_wrapper'); } else { var canvas = $('.CAP_BASEFLIGHT_CONFIG #canvas'); var wrapper = $('.CAP_BASEFLIGHT_CONFIG #canvas_wrapper'); } var camera = new THREE.PerspectiveCamera(50, wrapper.width() / wrapper.height(), 1, 10000); var renderer; if (GUI.operating_system != 'Linux' || GUI.operating_system != 'CrOS') { renderer = new THREE.WebGLRenderer({canvas: canvas.get(0), alpha: true, antialias: true}); } else { renderer = new THREE.CanvasRenderer({canvas: canvas.get(0), alpha: true}); } var scene = new THREE.Scene(); // some light var light = new THREE.DirectionalLight(new THREE.Color(1,1,1), 0.5); light.position.set(0, 1, 0); // flying brick var modelWrapper = new THREE.Object3D(); var geometry = new THREE.BoxGeometry(150, 80, 300); var materialArray = [ // overdraw helps remove wireframe when using CanvasRenderer new THREE.MeshLambertMaterial({color: 0xff3333, emissive: 0x962020, overdraw: true}), // right new THREE.MeshLambertMaterial({color: 0xff8800, emissive: 0xa45a06, overdraw: true}), // left new THREE.MeshLambertMaterial({color: 0xffff33, emissive: 0x9a9a21, overdraw: true}), // top new THREE.MeshLambertMaterial({color: 0x33ff33, emissive: 0x1f901f, overdraw: true}), // bottom new THREE.MeshLambertMaterial({color: 0x3333ff, emissive: 0x212192, overdraw: true}), // back new THREE.MeshLambertMaterial({color: 0x8833ff, emissive: 0x5620a2, overdraw: true}), // front ]; var materials = new THREE.MeshFaceMaterial(materialArray); var model = new THREE.Mesh(geometry, materials); // initialize render size for current canvas size renderer.setSize(wrapper.width(), wrapper.height()); // move camera away from the model camera.position.z = 500; // modelWrapper just adds an extra axis of rotation to avoid gimbal lock withe euler angles modelWrapper.add(model); // add camera, model, light to the foreground scene scene.add(camera); scene.add(modelWrapper); scene.add(light); this.render3D = function () { // compute the changes model.rotation.x = (SENSOR_DATA.kinematics[1] * -1.0) * 0.017453292519943295; modelWrapper.rotation.y = ((SENSOR_DATA.kinematics[2] * -1.0) - self.yaw_fix) * 0.017453292519943295; model.rotation.z = (SENSOR_DATA.kinematics[0] * -1.0) * 0.017453292519943295; // draw renderer.render(scene, camera); }; // handle canvas resize $(window).resize(function () { renderer.setSize(wrapper.width(), wrapper.height()); camera.aspect = wrapper.width() / wrapper.height(); camera.updateProjectionMatrix(); self.render3D(); }); }; TABS.setup.cleanup = function (callback) { $(window).unbind('resize'); if (callback) callback(); };