svg要素の座標を取得する方法は？

Question

私はd3を使用して相対的なsvg位置から線を描画しているため、要素自体の座標にアクセスしたいです。私はこのようなものを試しました（「this」は要素を指します）

 .attr("x1", this.x) .attr("y1", this.y)

ただし、x1とy1はデフォルトでゼロになります。 svg要素の座標を取得する正しい方法は何ですか？

編集：

これが私の（リクエストによる）私のコード全体です。これを折りたたみ可能なツリーに実装しようとしています。ここでは、マウスをサークルノードの上に置いたときに線を引きます。線の始点は、クリックした円からでなければならず、終点はsvg平面上の固定点でなければなりません。

<!DOCTYPE html> <html> <head> <meta http-equiv="Content-Type" content="text/html;charset=utf-8"> <script type="text/javascript" src="d3.v3.js"></script> <script type="text/javascript" src="d3.layout.js"></script> <style type="text/css"> .node circle { cursor: pointer; fill: #fff; stroke: steelblue; stroke-width: 1.5px; } .node text { font: 10px sans-serif; } path.link { fill: none; stroke: #ccc; stroke-width: 1.5px; } </style> </head> <body> <div id="chart"></div> <script type="text/javascript"> var m = [20, 120, 20, 120], w = 2240 - m[1] - m[3], h = 800 - m[0] - m[2], i = 0, duration = 500, root; var tree = d3.layout.tree() .size([h, w]); var diagonal = d3.svg.diagonal() .projection(function(d) { return [d.y, d.x]; }); var vis = d3.select("#chart").append("svg") .attr("width", w + m[1] + m[3]) .attr("height", h + m[0] + m[2]) .append("g") .attr("transform", "translate(" + m[3] + "," + m[0] + ")"); function loadData(json) { root = json; d3.select("#processName").html(root.text); root.x0 = h / 2; root.y0 = 0; root.children.forEach(collapse); update(root); } function collapse(d) { if (d.children) { d._children = d.children; d._children.forEach(collapse); d.children = null; } }; // Toggle children on click. function click(d) { if (d.children) { d._children = d.children; d.children = null; } else { d.children = d._children; d._children = null; } update(d); } function update(source) { // Compute the new tree layout. var nodes = tree.nodes(root).reverse(); // Normalize for fixed-depth. nodes.forEach(function(d) { d.y = d.depth * 180; }); // Update the nodes… var node = vis.selectAll("g.node") .data(nodes, function(d) { return d.id || (d.id = ++i); }); // Enter any new nodes at the parent's previous position. var nodeEnter = node.enter().append("g") .attr("class", "node") .attr("transform", function(d) { return "translate(" + source.y0 + "," + source.x0 + ")"; }) .on("click", click); nodeEnter.append("circle") .attr("r", 1e-6) .style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; }) .on('mouseover', function(d, i){ var dataset = [1,2,3,4] // HERE vis.selectAll("line") // HERE .data(dataset) // HERE .enter() // HERE .append("line") // HERE .attr("x1", this.x) // HERE'S THE PROBLEM FOR PERRY .attr("y1", this.y) // HERE'S THE PROBLEM FOR PERRY .attr("x2", 500) // HERE .attr("y2", 500) // HERE .style("stroke", "rgb(6,120,155)");} // HERE ); nodeEnter.append("text") .attr("x", function(d) { return d.children || d._children ? -10 : 10; }) .attr("dy", ".35em") .attr("text-anchor", function(d) { return d.children || d._children ? "end" : "start"; }) .text(function(d) { return d.name; }) .style("fill-opacity", 1e-6); // Transition nodes to their new position. var nodeUpdate = node.transition() .duration(duration) .attr("transform", function(d) { return "translate(" + d.y + "," + d.x + ")"; }); nodeUpdate.select("circle") .attr("r", 4.5) .style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; }); nodeUpdate.select("text") .style("fill-opacity", 1); // Transition exiting nodes to the parent's new position. var nodeExit = node.exit().transition() .duration(duration) .attr("transform", function(d) { return "translate(" + source.y + "," + source.x + ")"; }) .remove(); nodeExit.select("circle") .attr("r", 1e-6); nodeExit.select("text") .style("fill-opacity", 1e-6); // Update the links… var link = vis.selectAll("path.link") .data(tree.links(nodes), function(d) { return d.target.id; }); // Enter any new links at the parent's previous position. link.enter().insert("path", "g") .attr("class", "link") .attr("d", function(d) { var o = {x: source.x0, y: source.y0}; return diagonal({source: o, target: o}); }) .transition() .duration(duration) .attr("d", diagonal); // Transition links to their new position. link.transition() .duration(duration) .attr("d", diagonal); // Transition exiting nodes to the parent's new position. link.exit().transition() .duration(duration) .attr("d", function(d) { var o = {x: source.x, y: source.y}; return diagonal({source: o, target: o}); }) .remove(); // Stash the old positions for transition. nodes.forEach(function(d) { d.x0 = d.x; d.y0 = d.y; }); }; loadData({ "name": "flare", "children": [ { "name": "analytics", "children": [ { "name": "cluster", "children": [ {"name": "AgglomerativeCluster", "size": 3938}, {"name": "CommunityStructure", "size": 3812}, {"name": "HierarchicalCluster", "size": 6714}, {"name": "MergeEdge", "size": 743} ] }, { "name": "graph", "children": [ {"name": "BetweennessCentrality", "size": 3534}, {"name": "LinkDistance", "size": 5731}, {"name": "MaxFlowMinCut", "size": 7840}, {"name": "ShortestPaths", "size": 5914}, {"name": "SpanningTree", "size": 3416} ] }, { "name": "optimization", "children": [ {"name": "AspectRatioBanker", "size": 7074} ] } ] }, { "name": "animate", "children": [ {"name": "Easing", "size": 17010}, {"name": "FunctionSequence", "size": 5842}, { "name": 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Lars Kotthoff · Accepted Answer

座標を決定する方法は、使用している要素によって異なります。たとえば、circlesの場合、cxおよびcy属性により中心位置が決まります。さらに、translation属性を介してtransform属性を適用し、任意の座標の基準点を変更することができます。

スクリーン座標を取得するために一般的に使用されるほとんどの方法は、SVGでは機能しません。さらに、描画する線が接続する要素と同じコンテナ内にある場合は、絶対座標が不要な場合があります。

編集：

特定のコードでは、親要素の翻訳によって決定されるため、ノードの位置を取得することは非常に困難です。したがって、親ノードの変換属性を取得し、そこから翻訳を抽出する必要があります。

d3.transform(d3.select(this.parentNode).attr("transform")).translate

作業jsfiddle ここ。

t.888 · Answer

element.getBoundingClientRect() メソッドは、svgがスケーリングおよび/または変換されているかどうかに関係なく、ビューポートに相対的な要素の適切な座標を返します。

この質問と回答を参照。

GetBBox（）は、変換されていないスペースに対して機能しますが、スケールと変換がレイアウトに適用されると、正確ではなくなります。 getBoundingClientRect（）関数は、パンとズームが有効なときの強制レイアウトプロジェクトでうまく機能しました。そこでは、SVG Text要素を使用する代わりに、HTML Div要素をラベルとしてノードに添付しました。

Lucky · Answer

関数getBBox（）を使用して、パスの境界ボックスを取得できます。これにより、レンダリングされたパスを含む可能性のある最も狭い長方形の位置とサイズがわかります。

Xおよびyの値を読み取るよりもこの方法を使用する利点は、すべてのグラフィカルオブジェクトで機能することです。 xとyを持たないパスよりも多くのオブジェクトがあります。たとえば、代わりにcxとcyを含む円などです。

john ktejik · Answer

次のように、統合機能を使用します。

 element.transform.baseVal.consolidate()

.eおよび.f値は、xおよびy座標に対応します

G&#246;rkem · Answer

そのように処理できます。

svg.selectAll("rect") .data(zones) .enter() .append("rect") .attr("id", function (d) { return "zone" + d.zone; }) .attr("class", "zone") .attr("x", function (d, i) { if (parseInt(i / (wcount)) % 2 == 0) { this.xcor = (i % wcount) * zoneW; } else { this.xcor = (zoneW * (wcount - 1)) - ((i % wcount) * zoneW); } return this.xcor; })

そして、あなたはもうx座標を見つけることができます

svg.select("#zone1").on("click",function(){alert(this.xcor});