Commit d5792980 authored by Sven Schneider's avatar Sven Schneider
Browse files

added missing files and new thunmnails

parent 3323ec43
Pipeline #3293 passed with stages
in 34 seconds
......@@ -335,7 +335,8 @@ var pos=[];
var cols = [];
var streamID = [];
d3.dsv(",", "results/polylines_circularData.csv").then(function(text) {
// d3.dsv(",", "results/polylines_circularData.csv").then(function(text) {
d3.dsv(",", "results/Kirchturm1.csv").then(function(text) {
// console.log(text); // Hello, world!
// var temp = text.split(',');
......
......@@ -39,11 +39,11 @@ $(function () {
animation: true,
infoBox: true,
baseLayerPicker: true,
fullscreenButton: true,
timeline: true,
fullscreenButton: false,
timeline: false,
navigationHelpButton: true,
navigationInstructionsInitiallyVisible: false,
homeButton: true,
homeButton: false,
selectionIndicator: true,
geocoder: true,
// imageryProviderViewModels: imageryViewModels
......@@ -138,7 +138,7 @@ $(function () {
var Velocity = [];
var pt_to_pt_dist = [];
var avgVelocity = [];
var czmlArray = [];
function get_date_time_dt(deltaTime) {
// deltaTime should be given in SECONDS and is then converted to milliseconds
......@@ -151,31 +151,23 @@ $(function () {
}
d3.dsv(",", "results/polylines_with_velocity.csv").then(function (text) {
const particleDuration = 120; // units in seconds the particle / point should take to move from start to finish
const particleDuration = 90; // units in seconds the particle / point should take to move from start to finish
//define the czml structure
var particle_czml = [
{
id: "document",
name: "CZML Point - Time Dynamic",
version: "1.0",
clock: {
interval: get_date_time_dt(0) + "/" + get_date_time_dt(particleDuration), // This is the time range of our simulation
currentTime: '', // This is the time associated with the start view
currentTime: get_date_time_dt(0),
multiplier: 5,
// range: 'LOOP_STOP',
}
},
{
id: "point",
availability: get_date_time_dt(0) + "/" + get_date_time_dt(particleDuration),
availability:
get_date_time_dt(0) + "/" + get_date_time_dt(particleDuration),
position: {
epoch: get_date_time_dt(0),
cartographicDegrees: [
// use 4 coordinates / values : (t,x,y,z) or rather (t,lon,lat,alt)
],
//"interpolationAlgorithm": "LAGRANGE",
//"interpolationDegree": 1
},
point: {
color: {
......@@ -189,18 +181,6 @@ $(function () {
},
},
];
//////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////
let package_time_faktor = 6.0;
// create an array of deep copies of the original czml data structure, to be modified below.
let czmlArr = [];
for (c=0; c < package_time_faktor; c++){
czmlArr.push(JSON.parse(JSON.stringify(particle_czml)));
czmlArr[c][1].id = "point_arr_" + String(c);
}
var temp = text;
for (var i = 0; i < temp.length; i++) {
......@@ -243,7 +223,6 @@ $(function () {
// Create and draw a polyline with per vertex colors
/////////////////////////////////////////////////
const heightOffset = 120;
for (var line = 0; line < uniqueStreamID.length; line++) {
let positions = [];
let positionsInDegrees = [];
......@@ -252,29 +231,25 @@ $(function () {
let individual_particle_pt_distance = [];
let individual_particle_avg_velo = [];
curr_pos = sIDidx[line];
for (i = curr_pos; i < streamID.length; ++i) {
if (line === streamID[i]){
positions.push(
Cesium.Cartesian3.fromDegrees(
pos[i][0],
pos[i][1],
pos[i][2] + heightOffset
)
);
positionsInDegrees.push([
for (i = sIDidx[line - 1]; i < sIDidx[line] - 1; ++i) {
positions.push(
Cesium.Cartesian3.fromDegrees(
pos[i][0],
pos[i][1],
pos[i][2] + heightOffset,
]);
colors.push(
Cesium.Color.fromBytes(cols[i][0], cols[i][1], cols[i][2], 180)
);
individual_particle_avg_velo.push(avgVelocity[i]);
individual_particle_pt_distance.push(pt_to_pt_dist[i]);
individual_particle_velo.push(Velocity[i]);
} // if end brace
pos[i][2] + heightOffset
)
);
positionsInDegrees.push([
pos[i][0],
pos[i][1],
pos[i][2] + heightOffset,
]);
colors.push(
Cesium.Color.fromBytes(cols[i][0], cols[i][1], cols[i][2], 180)
);
individual_particle_avg_velo.push(avgVelocity[i]);
individual_particle_pt_distance.push(pt_to_pt_dist[i]);
individual_particle_velo.push(Velocity[i]);
}
// For per segment coloring, supply the colors option with
// an array of colors for each vertex. Also set the
......@@ -299,15 +274,14 @@ $(function () {
/////////////////////////////////////////////////
let streamDist = individual_particle_pt_distance.reduce(function (a, b) {
return a + b;
}, 0);
// console.log(streamDist);
}, 0);
// console.log(streamDist);
let t = 0;
let dt = (individual_particle_pt_distance[1] / individual_particle_avg_velo[0]) / 20;
// let dt = streamDist / individual_particle_avg_velo[0] / 500;
/////////////////////////////////////
var temp_pos = [];
let dt = (individual_particle_pt_distance[0] / individual_particle_avg_velo[0])/ 500;
// let dt = streamDist / individual_particle_avg_velo[0] / 500;
let temp_pos = [];
for (i = 0; i < positionsInDegrees.length; i++) {
if (i === 0) {
temp_pos.push(
......@@ -315,62 +289,34 @@ $(function () {
positionsInDegrees[i][0],
positionsInDegrees[i][1],
positionsInDegrees[i][2]
);
);
} else {
temp_pos.push(
t,
positionsInDegrees[i][0],
positionsInDegrees[i][1],
positionsInDegrees[i][2]
);
dt = individual_particle_pt_distance[i] /individual_particle_avg_velo[0] / 20; // avg_velo is always the same per streamline
);
dt = individual_particle_pt_distance[i] /individual_particle_avg_velo[i] / 500;
// console.log(individual_particle_pt_distance[i] + "/" + individual_particle_avg_velo[i] );
// console.log(dt);
}
t += dt;
}
particle_czml[1].id = "point" + String(line);
particle_czml[1].position.cartographicDegrees = temp_pos;
particle_czml[1].position.cartographicDegrees = temp_pos;
// czmlArray.push(particle_czml);
viewer.dataSources.add(Cesium.CzmlDataSource.load(particle_czml));
////////////////////////////////////////////////
dt = (individual_particle_pt_distance[1] / individual_particle_avg_velo[0]) / 20;
for (c=0; c < czmlArr.length ; c++){
temp_pos = [];
for (i = 0; i < positionsInDegrees.length; i++) {
if (i === 0) {
temp_pos.push(
t,
positionsInDegrees[i][0],
positionsInDegrees[i][1],
positionsInDegrees[i][2]
);
} else {
temp_pos.push(
t,
positionsInDegrees[i][0],
positionsInDegrees[i][1],
positionsInDegrees[i][2]
);
dt = individual_particle_pt_distance[i] /individual_particle_avg_velo[0] / 20;
// console.log(individual_particle_pt_distance[i] + "/" + individual_particle_avg_velo[i] );
// console.log(dt);
}
t += dt;
}
czmlArr[c][1].position.cartographicDegrees = temp_pos;
czmlArr[c][1].id = "point_set_" + String(c) + "_" + String(line);
czmlArr[c][1].position.epoch = get_date_time_dt(0);
viewer.dataSources.add(Cesium.CzmlDataSource.load(czmlArr[c]));
}
} // end bracket for: for (var line = 0; line < uniqueStreamID.length; line++) {
}
// for (p = 0; p < czmlArray.length; p++) {
// let temp = czmlArray[p];
// viewer.dataSources.add(Cesium.CzmlDataSource.load(temp));
// }
}); // end bracket for: d3.dsv(...).then(...
});
......
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