Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to implement zoom behavior in Directed Graph Editor, with Force Editor as an example.

The zoom behavior seems to work perfectly fine but I've lost the editing functions during the operations... I think the nodes are no more receiving the mousedown events but I don't manage to solve that.

Here's my fiddle http://jsfiddle.net/WgqaQ/7/

And there's the code :

// set up SVG for D3
var width  = 600,
    height = 500,
    colors = d3.scale.category10();

var svg = d3.select('body')
  .append('svg')
  .attr('width', width)
  .attr('height', height)
.attr("pointer-events", "all");

var vis = svg
  .append('svg:g')
    .call(d3.behavior.zoom().on("zoom", rescale))
    .on("dblclick.zoom", null)
  .append('svg:g');

vis.append('svg:rect')
   .attr('width', width)
    .attr('height', height)
    .attr('fill', 'white');


// set up initial nodes and links
//  - nodes are known by 'id', not by index in array.
//  - reflexive edges are indicated on the node (as a bold black circle).
//  - links are always source < target; edge directions are set by 'left' and 'right'.
var nodes = [
    {id: 0, reflexive: false},
    {id: 1, reflexive: true },
    {id: 2, reflexive: false}
  ],
  lastNodeId = 2,
  links = [
    {source: nodes[0], target: nodes[1], left: false, right: true },
    {source: nodes[1], target: nodes[2], left: false, right: true }
  ];

// init D3 force layout
var force = d3.layout.force()
    .nodes(nodes)
    .links(links)
    .size([width, height])
    .linkDistance(150)
    .charge(-500)
    .on('tick', tick)

// define arrow markers for graph links
vis.append('svg:defs').append('svg:marker')
    .attr('id', 'end-arrow')
    .attr('viewBox', '0 -5 10 10')
    .attr('refX', 6)
    .attr('markerWidth', 3)
    .attr('markerHeight', 3)
    .attr('orient', 'auto')
  .append('svg:path')
    .attr('d', 'M0,-5L10,0L0,5')
    .attr('fill', '#000');

vis.append('svg:defs').append('svg:marker')
    .attr('id', 'start-arrow')
    .attr('viewBox', '0 -5 10 10')
    .attr('refX', 4)
    .attr('markerWidth', 3)
    .attr('markerHeight', 3)
    .attr('orient', 'auto')
  .append('svg:path')
    .attr('d', 'M10,-5L0,0L10,5')
    .attr('fill', '#000');

// line displayed when dragging new nodes
var drag_line = vis.append('svg:path')
  .attr('class', 'link dragline hidden')
  .attr('d', 'M0,0L0,0');

// handles to link and node element groups
var path = vis.append('svg:g').selectAll('path'),
    circle = vis.append('svg:g').selectAll('g');

// mouse event vars
var selected_node = null,
    selected_link = null,
    mousedown_link = null,
    mousedown_node = null,
    mouseup_node = null;

function resetMouseVars() {
  mousedown_node = null;
  mouseup_node = null;
  mousedown_link = null;
}

// update force layout (called automatically each iteration)
function tick() {
  // draw directed edges with proper padding from node centers
  path.attr('d', function(d) {
    var deltaX = d.target.x - d.source.x,
        deltaY = d.target.y - d.source.y,
        dist = Math.sqrt(deltaX * deltaX + deltaY * deltaY),
        normX = deltaX / dist,
        normY = deltaY / dist,
        sourcePadding = d.left ? 17 : 12,
        targetPadding = d.right ? 17 : 12,
        sourceX = d.source.x + (sourcePadding * normX),
        sourceY = d.source.y + (sourcePadding * normY),
        targetX = d.target.x - (targetPadding * normX),
        targetY = d.target.y - (targetPadding * normY);
    return 'M' + sourceX + ',' + sourceY + 'L' + targetX + ',' + targetY;
  });

  circle.attr('transform', function(d) {
    return 'translate(' + d.x + ',' + d.y + ')';
  });
}

// update graph (called when needed)
function restart() {
  // path (link) group
  path = path.data(links);

  // update existing links
  path.classed('selected', function(d) { return d === selected_link; })
    .style('marker-start', function(d) { return d.left ? 'url(#start-arrow)' : ''; })
    .style('marker-end', function(d) { return d.right ? 'url(#end-arrow)' : ''; });


  // add new links
  path.enter().append('svg:path')
    .attr('class', 'link')
    .classed('selected', function(d) { return d === selected_link; })
    .style('marker-start', function(d) { return d.left ? 'url(#start-arrow)' : ''; })
    .style('marker-end', function(d) { return d.right ? 'url(#end-arrow)' : ''; })
    .on('mousedown', function(d) {
      if(d3.event.ctrlKey) return;

        vis.call(d3.behavior.zoom().on("zoom"), null);
      // select link
      mousedown_link = d;
      if(mousedown_link === selected_link) selected_link = null;
      else selected_link = mousedown_link;
      selected_node = null;
      restart();
    });

  // remove old links
  path.exit().remove();


  // circle (node) group
  // NB: the function arg is crucial here! nodes are known by id, not by index!
  circle = circle.data(nodes, function(d) { return d.id; });

  // update existing nodes (reflexive & selected visual states)
  circle.selectAll('circle')
    .style('fill', function(d) { return (d === selected_node) ? d3.rgb(colors(d.id)).brighter().toString() : colors(d.id); })
    .classed('reflexive', function(d) { return d.reflexive; });

  // add new nodes
  var g = circle.enter().append('svg:g');

  g.append('svg:circle')
    .attr('class', 'node')
    .attr('r', 12)
    .style('fill', function(d) { return (d === selected_node) ? d3.rgb(colors(d.id)).brighter().toString() : colors(d.id); })
    .style('stroke', function(d) { return d3.rgb(colors(d.id)).darker().toString(); })
    .classed('reflexive', function(d) { return d.reflexive; })
    .on('mouseover', function(d) {
      if(!mousedown_node || d === mousedown_node) return;
      // enlarge target node
      d3.select(this).attr('transform', 'scale(1.1)');
    })
    .on('mouseout', function(d) {
      if(!mousedown_node || d === mousedown_node) return;
      // unenlarge target node
      d3.select(this).attr('transform', '');
    })
    .on('mousedown', function(d) {
      if(d3.event.ctrlKey) return;

      vis.call(d3.behavior.zoom().on("zoom"), null);
      // select node
      mousedown_node = d;
      if(mousedown_node === selected_node) selected_node = null;
      else selected_node = mousedown_node;
      selected_link = null;

      // reposition drag line
      drag_line
        .style('marker-end', 'url(#end-arrow)')
        .classed('hidden', false)
        .attr('d', 'M' + mousedown_node.x + ',' + mousedown_node.y + 'L' + mousedown_node.x + ',' + mousedown_node.y);

      restart();
    })
    .on('mouseup', function(d) {
      if(!mousedown_node) return;

      // needed by FF
      drag_line
        .classed('hidden', true)
        .style('marker-end', '');

      // check for drag-to-self
      mouseup_node = d;
      if(mouseup_node === mousedown_node) { resetMouseVars(); return; }

      // unenlarge target node
      d3.select(this).attr('transform', '');

      // add link to graph (update if exists)
      // NB: links are strictly source < target; arrows separately specified by booleans
      var source, target, direction;
      if(mousedown_node.id < mouseup_node.id) {
        source = mousedown_node;
        target = mouseup_node;
        direction = 'right';
      } else {
        source = mouseup_node;
        target = mousedown_node;
        direction = 'left';
      }

      var link;
      link = links.filter(function(l) {
        return (l.source === source && l.target === target);
      })[0];

      if(link) {
        link[direction] = true;
      } else {
        link = {source: source, target: target, left: false, right: false};
        link[direction] = true;
        links.push(link);
      }

      // select new link
      selected_link = link;
      selected_node = null;
      restart();
    });

  // show node IDs
  g.append('svg:text')
      .attr('x', 0)
      .attr('y', 4)
      .attr('class', 'id')
      .text(function(d) { return d.id; });

  // remove old nodes
  circle.exit().remove();

  // set the graph in motion
  force.start();
}

function mousedown() {
  // prevent I-bar on drag
  //d3.event.preventDefault();

    if (!mousedown_node && !mousedown_link) {
        // allow panning if nothing is selected
        vis.call(d3.behavior.zoom().on("zoom"), rescale);

        return;

    }

  // because :active only works in WebKit?
  vis.classed('active', true);

  if(d3.event.ctrlKey || mousedown_node || mousedown_link) return;

  // insert new node at point
  var point = d3.mouse(this),
      node = {id: ++lastNodeId, reflexive: false};
  node.x = point[0];
  node.y = point[1];
  nodes.push(node);

        restart();

}

function mousemove() {
  if(!mousedown_node) return;

  // update drag line
  drag_line.attr('d', 'M' + mousedown_node.x + ',' + mousedown_node.y + 'L' + d3.mouse(this)[0] + ',' + d3.mouse(this)[1]);

  //restart();
}

function mouseup() {
  if(mousedown_node) {
    // hide drag line
    drag_line
      .classed('hidden', true)
      .style('marker-end', '');
  }

  // because :active only works in WebKit?
  vis.classed('active', false);

  // clear mouse event vars
  resetMouseVars();
}

function spliceLinksForNode(node) {
  var toSplice = links.filter(function(l) {
    return (l.source === node || l.target === node);
  });
  toSplice.map(function(l) {
    links.splice(links.indexOf(l), 1);
  });
}

// only respond once per keydown
var lastKeyDown = -1;

function keydown() {
  d3.event.preventDefault();

  if(lastKeyDown !== -1) return;
  lastKeyDown = d3.event.keyCode;

  // ctrl
  if(d3.event.keyCode === 17) {
    circle.call(force.drag);
    vis.classed('ctrl', true);
  }

  if(!selected_node && !selected_link) return;
  switch(d3.event.keyCode) {
    case 8: // backspace
    case 46: // delete
      if(selected_node) {
        nodes.splice(nodes.indexOf(selected_node), 1);
        spliceLinksForNode(selected_node);
      } else if(selected_link) {
        links.splice(links.indexOf(selected_link), 1);
      }
      selected_link = null;
      selected_node = null;
      restart();
      break;
    case 66: // B
      if(selected_link) {
        // set link direction to both left and right
        selected_link.left = true;
        selected_link.right = true;
      }
      restart();
      break;
    case 76: // L
      if(selected_link) {
        // set link direction to left only
        selected_link.left = true;
        selected_link.right = false;
      }
      restart();
      break;
    case 82: // R
      if(selected_node) {
        // toggle node reflexivity
        selected_node.reflexive = !selected_node.reflexive;
      } else if(selected_link) {
        // set link direction to right only
        selected_link.left = false;
        selected_link.right = true;
      }
      restart();
      break;
  }
}

function keyup() {
  lastKeyDown = -1;

  // ctrl
  if(d3.event.keyCode === 17) {
    circle
      .on('mousedown.drag', null)
      .on('touchstart.drag', null);
    vis.classed('ctrl', false);
  }
}

// rescale g
function rescale() {
  trans=d3.event.translate;
  scale=d3.event.scale;

  vis.attr("transform",
      "translate(" + trans + ")"
      + " scale(" + scale + ")");
}

// app starts here
vis.on('mousedown', mousedown)
  .on('mousemove', mousemove)
  .on('mouseup', mouseup);
d3.select(window)
  .on('keydown', keydown)
  .on('keyup', keyup);
restart();

Thanks for your help !

share|improve this question
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.