5

我的印象是这个问题是如此简单,没有人费心制作它的演示,但我不知道足够的 D3(还)来看看我做错了什么。我正在寻找的行为是,如果用户单击没有圆圈的地方,它将在那里创建一个圆圈,如果他们拖动现有圆圈,则不会创建一个新圆圈,但他们拖动的圆圈会移动。

我目前的尝试如下

points = []

drag = d3.behavior.drag()
  .origin((d) -> d)
  .on("dragstart", dragstarted)
  .on("dragend", dragended)

dragstarted = (d) ->
  d3.event.sourceEvent.stopPropagation
  d3.select(this).classed("dragging", true)

dragended = (d) ->
  d3.select(this).classed("dragging", false)

mousedown = ->
  return if d3.event.defaultPrevented
  point = d3.mouse(this)
  points[points.length] = {x: point[0], y: point[1]}
  svg.selectAll("circle").data(points).enter().append("circle")
                                                .attr("cx", (n) -> n.x)
                                                .attr("cy", (n) -> n.y)
                                                .attr("r", "5")
                                                .attr("class", "dot")
                                                .call(drag)

svg = d3.select("body").append("svg")
                         .attr("width", 700)
                         .attr("height", 400)
                         .on("mousedown", mousedown)
4

2 回答 2

14

首先,您肯定对如何在mousedown. 我要改变的两件事是:

  1. 使用click代替mousedown,因此如果您单击现有点,则不会在现有点之上添加新点。
  2. 一次添加一个点,而不是重新添加每个点上的所有点click

这是一个工作click函数:

function click(){
  // Ignore the click event if it was suppressed
  if (d3.event.defaultPrevented) return;

  // Extract the click location\    
  var point = d3.mouse(this)
  , p = {x: point[0], y: point[1] };

  // Append a new point
  svg.append("circle")
      .attr("transform", "translate(" + p.x + "," + p.y + ")")
      .attr("r", "5")
      .attr("class", "dot")
      .style("cursor", "pointer")
      .call(drag);
}

然后,在拖动的时候,最简单的就是移动一个circleusing translate(这也是我translate在上面创建点时使用的原因)。唯一真正的步骤是提取拖动xy位置。drag这是行为的一个工作示例。

var drag = d3.behavior.drag()
    .on("drag", dragmove);

function dragmove(d) {
  var x = d3.event.x;
  var y = d3.event.y;
  d3.select(this).attr("transform", "translate(" + x + "," + y + ")");
}

我把所有这些放在这个jsfiddle中。

最后,这是我在构建拖动示例时阅读的一个相关 SO 问题:如何使用 d3.js 拖动行为拖动 svg 组?.

于 2013-11-11T17:21:32.593 回答
1

这里是一个关于如何在鼠标单击时创建节点的示例:http: //bl.ocks.org/rkirsling/5001347 这里是一个关于如何拖放节点的示例。研究这两个例子,你就会得到答案。还将您当前的示例放在 jsfiddle 中,以便可以查看问题所在。

索引.html

<!DOCTYPE html>
<html>
  <head>
    <meta charset="utf-8">
    <title>Directed Graph Editor</title>
    <link rel="stylesheet" href="app.css">
  </head>

  <body>
  </body>

  <script src="http://d3js.org/d3.v3.min.js"></script>
  <script src="app.js"></script>
</html>

应用程序.css

svg {
  background-color: #FFF;
  cursor: default;
  -webkit-user-select: none;
  -moz-user-select: none;
  -ms-user-select: none;
  -o-user-select: none;
  user-select: none;
}

svg:not(.active):not(.ctrl) {
  cursor: crosshair;
}

path.link {
  fill: none;
  stroke: #000;
  stroke-width: 4px;
  cursor: default;
}

svg:not(.active):not(.ctrl) path.link {
  cursor: pointer;
}

path.link.selected {
  stroke-dasharray: 10,2;
}

path.link.dragline {
  pointer-events: none;
}

path.link.hidden {
  stroke-width: 0;
}

circle.node {
  stroke-width: 1.5px;
  cursor: pointer;
}

circle.node.reflexive {
  stroke: #000 !important;
  stroke-width: 2.5px;
}

text {
  font: 12px sans-serif;
  pointer-events: none;
}

text.id {
  text-anchor: middle;
  font-weight: bold;
}

应用程序.js

// set up SVG for D3
var width  = 960,
    height = 500,
    colors = d3.scale.category10();

var svg = d3.select('body')
  .append('svg')
  .attr('width', width)
  .attr('height', height);

// 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
svg.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');

svg.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 = svg.append('svg:path')
  .attr('class', 'link dragline hidden')
  .attr('d', 'M0,0L0,0');

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

      // 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;

      // 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();

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

// app starts here
svg.on('mousedown', mousedown)
  .on('mousemove', mousemove)
  .on('mouseup', mouseup);
d3.select(window)
  .on('keydown', keydown)
  .on('keyup', keyup);
restart();
于 2013-11-11T17:06:32.380 回答