'use strict';
TABS.motors = {
allowTestMode: false,
feature3DEnabled: false,
feature3DSupported: false
};
TABS.motors.initialize = function (callback) {
var self = this;
self.armed = false;
self.feature3DSupported = false;
self.allowTestMode = true;
if (GUI.active_tab != 'motors') {
GUI.active_tab = 'motors';
googleAnalytics.sendAppView('Motors');
}
function get_arm_status() {
MSP.send_message(MSP_codes.MSP_STATUS, false, false, load_config);
}
function load_config() {
MSP.send_message(MSP_codes.MSP_BF_CONFIG, false, false, load_3d);
}
function load_3d() {
var next_callback = get_motor_data;
if (semver.gte(CONFIG.apiVersion, "1.14.0")) {
self.feature3DSupported = true;
MSP.send_message(MSP_codes.MSP_3D, false, false, next_callback);
} else {
next_callback();
}
}
function get_motor_data() {
update_arm_status();
MSP.send_message(MSP_codes.MSP_MOTOR, false, false, load_html);
}
function load_html() {
$('#content').load("./tabs/motors.html", process_html);
}
MSP.send_message(MSP_codes.MSP_MISC, false, false, get_arm_status);
function update_arm_status() {
self.armed = bit_check(CONFIG.mode, 0);
}
function initSensorData() {
for (var i = 0; i < 3; i++) {
SENSOR_DATA.accelerometer[i] = 0;
}
}
function initDataArray(length) {
var data = new Array(length);
for (var i = 0; i < length; i++) {
data[i] = new Array();
data[i].min = -1;
data[i].max = 1;
}
return data;
}
function addSampleToData(data, sampleNumber, sensorData) {
for (var i = 0; i < data.length; i++) {
var dataPoint = sensorData[i];
data[i].push([sampleNumber, dataPoint]);
if (dataPoint < data[i].min) {
data[i].min = dataPoint;
}
if (dataPoint > data[i].max) {
data[i].max = dataPoint;
}
}
while (data[0].length > 300) {
for (i = 0; i < data.length; i++) {
data[i].shift();
}
}
return sampleNumber + 1;
}
var margin = {top: 20, right: 30, bottom: 10, left: 20};
function updateGraphHelperSize(helpers) {
helpers.width = helpers.targetElement.width() - margin.left - margin.right;
helpers.height = helpers.targetElement.height() - margin.top - margin.bottom;
helpers.widthScale.range([0, helpers.width]);
helpers.heightScale.range([helpers.height, 0]);
helpers.xGrid.tickSize(-helpers.height, 0, 0);
helpers.yGrid.tickSize(-helpers.width, 0, 0);
}
function initGraphHelpers(selector, sampleNumber, heightDomain) {
var helpers = {selector: selector, targetElement: $(selector), dynamicHeightDomain: !heightDomain};
helpers.widthScale = d3.scale.linear()
.clamp(true)
.domain([(sampleNumber - 299), sampleNumber]);
helpers.heightScale = d3.scale.linear()
.clamp(true)
.domain(heightDomain || [1, -1]);
helpers.xGrid = d3.svg.axis();
helpers.yGrid = d3.svg.axis();
updateGraphHelperSize(helpers);
helpers.xGrid
.scale(helpers.widthScale)
.orient("bottom")
.ticks(5)
.tickFormat("");
helpers.yGrid
.scale(helpers.heightScale)
.orient("left")
.ticks(5)
.tickFormat("");
helpers.xAxis = d3.svg.axis()
.scale(helpers.widthScale)
.ticks(5)
.orient("bottom")
.tickFormat(function (d) {return d;});
helpers.yAxis = d3.svg.axis()
.scale(helpers.heightScale)
.ticks(5)
.orient("left")
.tickFormat(function (d) {return d;});
helpers.line = d3.svg.line()
.x(function (d) { return helpers.widthScale(d[0]); })
.y(function (d) { return helpers.heightScale(d[1]); });
return helpers;
}
function drawGraph(graphHelpers, data, sampleNumber) {
var svg = d3.select(graphHelpers.selector);
if (graphHelpers.dynamicHeightDomain) {
var limits = [];
$.each(data, function (idx, datum) {
limits.push(datum.min);
limits.push(datum.max);
});
graphHelpers.heightScale.domain(d3.extent(limits));
}
graphHelpers.widthScale.domain([(sampleNumber - 299), sampleNumber]);
svg.select(".x.grid").call(graphHelpers.xGrid);
svg.select(".y.grid").call(graphHelpers.yGrid);
svg.select(".x.axis").call(graphHelpers.xAxis);
svg.select(".y.axis").call(graphHelpers.yAxis);
var group = svg.select("g.data");
var lines = group.selectAll("path").data(data, function (d, i) {return i;});
var newLines = lines.enter().append("path").attr("class", "line");
lines.attr('d', graphHelpers.line);
}
function update_model(val) {
$('.mixerPreview img').attr('src', './resources/motor_order/' + mixerList[val - 1].image + '.svg');
}
function process_html() {
// translate to user-selected language
localize();
self.feature3DEnabled = bit_check(BF_CONFIG.features, 12);
if (self.feature3DEnabled && !self.feature3DSupported) {
self.allowTestMode = false;
}
$('#motorsEnableTestMode').prop('checked', false);
$('#motorsEnableTestMode').prop('disabled', true);
update_model(CONFIG.multiType);
// Always start with default/empty sensor data array, clean slate all
initSensorData();
// Setup variables
var samples_accel_i = 0,
accel_data = initDataArray(3),
accelHelpers = initGraphHelpers('#accel', samples_accel_i, [-2, 2]),
accel_max_read = [0, 0, 0],
accel_offset = [0, 0, 0],
accel_offset_established = false;
var raw_data_text_ements = {
x: [],
y: [],
z: [],
rms: []
};
$('.plot_control .x, .plot_control .y, .plot_control .z, .plot_control .rms').each(function () {
var el = $(this);
if (el.hasClass('x')) {
raw_data_text_ements.x.push(el);
} else if (el.hasClass('y')) {
raw_data_text_ements.y.push(el);
} else if (el.hasClass('z')) {
raw_data_text_ements.z.push(el);
} else if (el.hasClass('rms')) {
raw_data_text_ements.rms.push(el);
}
});
// set refresh speeds according to configuration saved in storage
chrome.storage.local.get('motors_tab_accel_settings', function (result) {
if (result.motors_tab_accel_settings) {
$('.tab-motors select[name="accel_refresh_rate"]').val(result.motors_tab_accel_settings.rate);
$('.tab-motors select[name="accel_scale"]').val(result.motors_tab_accel_settings.scale);
// start polling data by triggering refresh rate change event
$('.tab-motors .rate select:first').change();
} else {
// start polling immediatly (as there is no configuration saved in the storage)
$('.tab-motors .rate select:first').change();
}
});
$('.tab-motors .rate select, .tab-motors .scale select').change(function () {
var rate = parseInt($('.tab-motors select[name="accel_refresh_rate"]').val(), 10);
var scale = parseFloat($('.tab-motors select[name="accel_scale"]').val());
// store current/latest refresh rates in the storage
chrome.storage.local.set({'motors_tab_accel_settings': {'rate': rate, 'scale': scale}});
accelHelpers = initGraphHelpers('#accel', samples_accel_i, [-scale, scale]);
// timer initialization
GUI.interval_kill_all(['motor_and_status_pull']);
GUI.interval_add('IMU_pull', function imu_data_pull() {
MSP.send_message(MSP_codes.MSP_RAW_IMU, false, false, update_accel_graph);
}, rate, true);
function update_accel_graph() {
if (!accel_offset_established) {
for (var i = 0; i < 3; i++) {
accel_offset[i] = SENSOR_DATA.accelerometer[i] * -1;
}
accel_offset_established = true;
}
var accel_with_offset = [
accel_offset[0] + SENSOR_DATA.accelerometer[0],
accel_offset[1] + SENSOR_DATA.accelerometer[1],
accel_offset[2] + SENSOR_DATA.accelerometer[2]
];
updateGraphHelperSize(accelHelpers);
samples_accel_i = addSampleToData(accel_data, samples_accel_i, accel_with_offset);
drawGraph(accelHelpers, accel_data, samples_accel_i);
// Compute RMS of acceleration in displayed period of time
// This is particularly useful for motor balancing as it
// eliminates the need for external tools
var sum = 0.0;
for (var j = 0; j < accel_data.length; j++)
for (var k = 0; k < accel_data[j].length; k++)
sum += accel_data[j][k][1]*accel_data[j][k][1];
var rms = Math.sqrt(sum/(accel_data[0].length+accel_data[1].length+accel_data[2].length));
raw_data_text_ements.x[0].text(accel_with_offset[0].toFixed(2) + ' (' + accel_max_read[0].toFixed(2) + ')');
raw_data_text_ements.y[0].text(accel_with_offset[1].toFixed(2) + ' (' + accel_max_read[1].toFixed(2) + ')');
raw_data_text_ements.z[0].text(accel_with_offset[2].toFixed(2) + ' (' + accel_max_read[2].toFixed(2) + ')');
raw_data_text_ements.rms[0].text(rms.toFixed(4));
for (var i = 0; i < 3; i++) {
if (Math.abs(accel_with_offset[i]) > Math.abs(accel_max_read[i])) accel_max_read[i] = accel_with_offset[i];
}
}
});
$('a.reset_accel_max').click(function () {
accel_max_read = [0, 0, 0];
accel_offset_established = false;
});
var number_of_valid_outputs = (MOTOR_DATA.indexOf(0) > -1) ? MOTOR_DATA.indexOf(0) : 8;
var motors_wrapper = $('.motors .bar-wrapper'),
servos_wrapper = $('.servos .bar-wrapper');
for (var i = 0; i < 8; i++) {
motors_wrapper.append('\
\
');
servos_wrapper.append('\
\
');
}
$('div.sliders input').prop('min', MISC.mincommand);
$('div.sliders input').prop('max', MISC.maxthrottle);
$('div.values li:not(:last)').text(MISC.mincommand);
if(self.feature3DEnabled && self.feature3DSupported) {
//Arbitrary sanity checks
//Note: values may need to be revisited
if(_3D.neutral3d > 1575 || _3D.neutral3d < 1425)
_3D.neutral3d = 1500;
$('div.sliders input').val(_3D.neutral3d);
} else {
$('div.sliders input').val(MISC.mincommand);
}
if(self.allowTestMode){
// UI hooks
var buffering_set_motor = [],
buffer_delay = false;
$('div.sliders input:not(.master)').on('input', function () {
var index = $(this).index(),
buffer = [],
i;
$('div.values li').eq(index).text($(this).val());
for (i = 0; i < 8; i++) {
var val = parseInt($('div.sliders input').eq(i).val());
buffer.push(lowByte(val));
buffer.push(highByte(val));
}
buffering_set_motor.push(buffer);
if (!buffer_delay) {
buffer_delay = setTimeout(function () {
buffer = buffering_set_motor.pop();
MSP.send_message(MSP_codes.MSP_SET_MOTOR, buffer);
buffering_set_motor = [];
buffer_delay = false;
}, 10);
}
});
}
$('div.sliders input.master').on('input', function () {
var val = $(this).val();
$('div.sliders input:not(:disabled, :last)').val(val);
$('div.values li:not(:last)').slice(0, number_of_valid_outputs).text(val);
$('div.sliders input:not(:last):first').trigger('input');
});
$('#motorsEnableTestMode').change(function () {
if ($(this).is(':checked')) {
$('div.sliders input').slice(0, number_of_valid_outputs).prop('disabled', false);
// unlock master slider
$('div.sliders input:last').prop('disabled', false);
} else {
// disable sliders / min max
$('div.sliders input').prop('disabled', true);
// change all values to default
if (self.feature3DEnabled && self.feature3DSupported) {
$('div.sliders input').val(_3D.neutral3d);
} else {
$('div.sliders input').val(MISC.mincommand);
}
$('div.sliders input').trigger('input');
}
});
// check if motors are already spinning
var motors_running = false;
for (var i = 0; i < number_of_valid_outputs; i++) {
if( !self.feature3DEnabled ){
if (MOTOR_DATA[i] > MISC.mincommand) {
motors_running = true;
break;
}
}else{
if( (MOTOR_DATA[i] < _3D.deadband3d_low) || (MOTOR_DATA[i] > _3D.deadband3d_high) ){
motors_running = true;
break;
}
}
}
if (motors_running) {
if (!self.armed && self.allowTestMode) {
$('#motorsEnableTestMode').prop('checked', true);
}
// motors are running adjust sliders to current values
var sliders = $('div.sliders input:not(.master)');
var master_value = MOTOR_DATA[0];
for (var i = 0; i < MOTOR_DATA.length; i++) {
if (MOTOR_DATA[i] > 0) {
sliders.eq(i).val(MOTOR_DATA[i]);
if (master_value != MOTOR_DATA[i]) {
master_value = false;
}
}
}
// only fire events when all values are set
sliders.trigger('input');
// slide master slider if condition is valid
if (master_value) {
$('div.sliders input.master').val(master_value);
$('div.sliders input.master').trigger('input');
}
}
$('#motorsEnableTestMode').change();
// data pulling functions used inside interval timer
function get_status() {
// status needed for arming flag
MSP.send_message(MSP_codes.MSP_STATUS, false, false, get_motor_data);
}
function get_motor_data() {
MSP.send_message(MSP_codes.MSP_MOTOR, false, false, get_servo_data);
}
function get_servo_data() {
MSP.send_message(MSP_codes.MSP_SERVO, false, false, update_ui);
}
var full_block_scale = MISC.maxthrottle - MISC.mincommand;
function update_ui() {
var previousArmState = self.armed;
var block_height = $('div.m-block:first').height();
for (var i = 0; i < MOTOR_DATA.length; i++) {
var data = MOTOR_DATA[i] - MISC.mincommand,
margin_top = block_height - (data * (block_height / full_block_scale)).clamp(0, block_height),
height = (data * (block_height / full_block_scale)).clamp(0, block_height),
color = parseInt(data * 0.009);
$('.motor-' + i + ' .label', motors_wrapper).text(MOTOR_DATA[i]);
$('.motor-' + i + ' .indicator', motors_wrapper).css({'margin-top' : margin_top + 'px', 'height' : height + 'px', 'background-color' : 'rgba(89,170,41,1.'+ color +')'});
}
// servo indicators are still using old (not flexible block scale), it will be changed in the future accordingly
for (var i = 0; i < SERVO_DATA.length; i++) {
var data = SERVO_DATA[i] - 1000,
margin_top = block_height - (data * (block_height / 1000)).clamp(0, block_height),
height = (data * (block_height / 1000)).clamp(0, block_height),
color = parseInt(data * 0.009);
$('.servo-' + i + ' .label', servos_wrapper).text(SERVO_DATA[i]);
$('.servo-' + i + ' .indicator', servos_wrapper).css({'margin-top' : margin_top + 'px', 'height' : height + 'px', 'background-color' : 'rgba(89,170,41,1'+ color +')'});
}
//keep the following here so at least we get a visual cue of our motor setup
update_arm_status();
if (!self.allowTestMode) return;
if (self.armed) {
$('#motorsEnableTestMode').prop('disabled', true);
$('#motorsEnableTestMode').prop('checked', false);
} else {
if (self.allowTestMode) {
$('#motorsEnableTestMode').prop('disabled', false);
}
}
if (previousArmState != self.armed) {
console.log('arm state change detected');
$('#motorsEnableTestMode').change();
}
}
// enable Status and Motor data pulling
GUI.interval_add('motor_and_status_pull', get_status, 50, true);
GUI.content_ready(callback);
}
};
TABS.motors.cleanup = function (callback) {
if (callback) callback();
};