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I would like to know if there is an easy way to modify the Sankey diagram example so that there is smooth transition to new data. For example, imagine I have different datafiles (energy1.json, energy2.json ...) how could d3 plot a Sankey diagram for the first dataset, then waits and later on rearanges the boxes disposition to represent the second dataset?

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Did you ever solve this? –  PhoebeB Mar 6 '13 at 11:30
1  
Would all of your datafiles have the same nodes but different flows between them? –  ASGM Mar 11 '13 at 23:38
    
yes, this is the drawing I'm working on beautifuldata.eu/sankey/circuits.html –  PhoebeB Mar 12 '13 at 16:01

2 Answers 2

up vote 7 down vote accepted
+50

This is possible. Here's one approach using a csv file. Working sankey here: https://www.betterment.com/blog/2014/03/19/portfolio-diversification/

  1. Define a global array outside of your d3.csv call.

    var portfolioValues = [];
    
  2. When parsing the csv to create the node/link structure, push values to your global array.

    d3.csv("etf-geo.csv", function(error, data) {
        graph = {"nodes" : [], "links" : []};
        data.forEach(function (d, i) {
            var item = { source: d.source, target: d.target, values: [] };
            for (var j=0; j < 101; j++) {
                item.values.push(d['value'+j.toString()]);
            }
            portfolioValues.push(item);
            graph.nodes.push({ "name": d.source });
            graph.nodes.push({ "name": d.target });
            graph.links.push({
                source: portfolioValues[i].source,
                target: portfolioValues[i].target,
                value: portfolioValues[i].values[startingAllocation]
            });
        });
    
    //this handy little function returns only the distinct / unique nodes
    graph.nodes = d3.keys(
        d3.nest()
            .key(function (d) { return d.name; })
            .map(graph.nodes)
    );
    
    // it appears d3 with force layout wants a numeric source and target
    // so loop through each link replacing the text with its index from node
    graph.links.forEach(function (d, i) {
        graph.links[i].source = graph.nodes.indexOf(graph.links[i].source);
        graph.links[i].target = graph.nodes.indexOf(graph.links[i].target);
        portfolioValues[i].source = graph.links[i].source;
        portfolioValues[i].target = graph.links[i].target;
    });
    
    // now loop through each nodes to make nodes an array of objects
    // rather than an array of strings
    graph.nodes.forEach(function (d, i) {
        graph.nodes[i] = { "name": d };
    });
    
    // construct sankey
    sankey
        .nodes(graph.nodes)
        .links(graph.links)
        .layout();
    
  3. Listen for a change and pass user input to your update function.

    $(".sankey-slider").bind("slider:changed", function (event, data) {
    
    slideValue = data.value;
    
    updateData(parseInt(slideValue));
    
     });
    
  4. Create a temporary array and retrieve the correct values from the global array. Call the sankey functions to recalculate the layout.

        var newLinks = [];
    
        portfolioValues.forEach(function(p, i) {
            newLinks.push({
              source: p.source,
              target: p.target,
              value: p.values[allocation]
            });
        });
    
        graph.links = newLinks;
    
        sankey
        .nodes(graph.nodes)
        .links(graph.links)
        .size([width, height])
        .layout();
    
  5. Select each element that needs to be changed and pass the new data values.

    d3.selectAll(".link")
      .data(graph.links)
      .attr("d", path)
      .attr("id", function(d,i){
        d.id = i;
        return "link-"+i;
      })
      .style("stroke-width", function(d) { return Math.max(1, d.dy); })
      .sort(function(a, b) { return b.dy - a.dy; });
    
    d3.selectAll(".node").attr("transform", function(d) {
      return "translate(" + d.x + "," + d.y + ")"; });
    
    d3.selectAll("rect")
    .attr("height", function(d) { return d.dy; })
    .on("mouseover",highlight_node_links)
    .on("mouseout",onNodeMouseout);
    

Working sankey here: https://www.betterment.com/blog/2014/03/19/portfolio-diversification/

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Since the automatic positioning of nodes includes a part which tries to minimize link distance in a connected graph which is an np optimization problem, any kind of optimizer can potentially jump from one minimum to another leading to a jump in layout. So a guaranteed smooth transition wont be possible.

The closest possible solution would probably be to linearly interpolate between the two input data sets and thereby generate a series of graphs which (depending on the data) more or less smoothly transition from one two the other.

Hope this helps.

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